S.NO Date Day Topic 1 20-Apr-16 Wed Logarithms and their properties 2 21-Apr-16 Thu Real numbers, Rational and Irrational numbers (surds) 3 22-Apr-16 Fri Modulus function 4 23-Apr-16 Sat Greatest integer function 5 24-Apr-16 Sun Sunday 6 25-Apr-16 Mon Quadratic equations - Nature of roots 7 26-Apr-16 Tue condition for common root & common roots, Graphs of quadratic expressions, location of roots 8 27-Apr-16 Wed Quadratic inequations, Wavy curve method, finding the roots of a polynomial equations, rational equations, rational,irrational inequalities 9 28-Apr-16 Thu Transformation of roots, Solving of equations containing absolute values, logarthmic and exponential values 10 29-Apr-16 Fri Rational equations, P(x)/Q(x)=0 P & Q being polynomials, Q ≠ 0 ,Rational inequalities, method of Intervals, Quadratic expressions, their graphs and bounds 11 30-Apr-16 Sat 30-Apr-16 JEE MAINS Quadratic equations - Nature of roots, condition for common root & common roots, Graphs of quadratic expressions, location of roots, Quadratic inequations, Wavy curve method, finding the roots of a polynomial equations, rational equations, rational,irrational inequalities, Transformation of roots, Solving of equations containing absolute values, logarthmic and exponential values, Rational equations, P(x)/Q(x)=0 P & Q being polynomials, Q ≠ 0 ,Rational inequalities, method of Intervals, Quadratic expressions, their graphs and bounds(70%) &Logarithms and their properties, Real numbers, Rational and Irrational numbers (surds), Modulus function, Greatest integer function(30%) 12 1-May-16 Sun Sunday NARAYANA IIT ACADEMY NARAYANA IIT ACADEMY DWARKA For the Academic Year 2016-2017_Jr.IZ(Incoming Jr's)Micro Schedule Code: SriRam@2016 Subject : MATHS Page 1 of 40
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S.NO Date Day Topic
1 20-Apr-16 Wed Logarithms and their properties
2 21-Apr-16 Thu Real numbers, Rational and Irrational numbers (surds)
3 22-Apr-16 Fri Modulus function
4 23-Apr-16 Sat Greatest integer function
524-Apr-16 Sun Sunday
6 25-Apr-16 Mon Quadratic equations - Nature of roots
7 26-Apr-16 Tue condition for common root & common roots, Graphs of quadratic expressions, location of roots
827-Apr-16 Wed
Quadratic inequations, Wavy curve method, finding the roots of a polynomial equations, rational equations,
rational,irrational inequalities
9 28-Apr-16 ThuTransformation of roots, Solving of equations containing absolute values, logarthmic and exponential values
1029-Apr-16 Fri
Rational equations, P(x)/Q(x)=0 P & Q being polynomials, Q ≠ 0 ,Rational inequalities, method of Intervals, Quadratic
expressions, their graphs and bounds
1130-Apr-16 Sat
30-Apr-16 JEE MAINS
Quadratic equations - Nature of roots, condition for common root & common roots, Graphs of quadratic
expressions, location of roots, Quadratic inequations, Wavy curve method, finding the roots of a polynomial
equations, rational equations, rational,irrational inequalities, Transformation of roots, Solving of equations
containing absolute values, logarthmic and exponential values, Rational equations, P(x)/Q(x)=0 P & Q being
polynomials, Q ≠ 0 ,Rational inequalities, method of Intervals, Quadratic expressions, their graphs and
bounds(70%) &Logarithms and their properties, Real numbers, Rational and Irrational numbers (surds),
Modulus function, Greatest integer function(30%)
12 1-May-16 Sun Sunday
NARAYANA IIT ACADEMY
NARAYANA IIT ACADEMY DWARKA
For the Academic Year 2016-2017_Jr.IZ(Incoming Jr's)Micro Schedule Code: SriRam@2016
Subject : MATHS
Page 1 of 40
S.NO Date Day Topic
Subject : MATHS
2-May-16 JEE ADVANCE
Quadratic equations - Nature of roots, condition for common root & common roots, Graphs of quadratic
expressions, location of roots, Quadratic inequations, Wavy curve method, finding the roots of a polynomial
equations, rational equations, rational,irrational inequalities, Transformation of roots, Solving of equations
containing absolute values, logarthmic and exponential values, Rational equations, P(x)/Q(x)=0 P & Q being
polynomials, Q ≠ 0 ,Rational inequalities, method of Intervals, Quadratic expressions, their graphs and
bounds(70%) &Logarithms and their properties, Real numbers, Rational and Irrational numbers (surds),
Modulus function, Greatest integer function(30%)
132-May-16 Mon
Roots of nth degree polynomial equations, relation between roots and coefficients, transformed
412 5-Jun-17 MonFundamental Principles of counting
413 6-Jun-17 TueLinear permutation
414 7-Jun-17 WedCircular permutation
415 8-Jun-17 ThuDefinition of combinations and problems based on nCr only
416 9-Jun-17 FriNumber of integral divisors of a number
417 10-Jun-17 Sat
10-Jun-17 MAINSFundamental Principles of counting, linear permutation,Circular permutation, Definition of
combinations and problems based on nCr only, Number of integral divisors of a number
418 11-Jun-17 Sun Sunday
12-Jun-17 ADVS
Fundamental Principles of counting, linear permutation,Circular permutation, Definition of
combinations and problems based on nCr only, Number of integral divisors of a number
419 12-Jun-17 MonComplete combinations
420 13-Jun-17 TueComplete combinations
421 14-Jun-17 WedNumber of integrals solution of linear equations
422 15-Jun-17 ThuDerangement
Page 36 of 40
S.NO Date Day Topic
Subject : MATHS
423 16-Jun-17 FriPrinciple of inclusion and exclusion,
424 17-Jun-17 Sat
17-Jun-17 MAINS
Fundamental Principles of counting, linear permutation,Circular permutation,Definition of
combinations and problems based on nCr only, Number of integral divisors of a number(30%) +
Complete combinations, Number of integrals solution of linear equations, Derangement, Principle of
inclusion and exclusion(70%)
425 18-Jun-17 Sun Sunday
19-Jun-17 ADVS
Fundamental Principles of counting, linear permutation,Circular permutation,Definition of
combinations and problems based on nCr only, Number of integral divisors of a number(30%) +
Complete combinations, Number of integrals solution of linear equations, Derangement, Principle of
inclusion and exclusion(70%)
426 19-Jun-17 MonDivision of different things into groups
427 20-Jun-17 TueDistribution of identical / distinct objects into identical / distinct boxes (number of integral solutions)
428 21-Jun-17 WedDistribution of identical / distinct objects into identical / distinct boxes (number of integral solutions)
429 22-Jun-17 ThuDistribution of identical / distinct objects into identical / distinct boxes (number of integral solutions)
430 23-Jun-17 FriMiscellaneous problems
431 24-Jun-17 Sat
24-Jun-17 MAINS COMPLETE P&C
Page 37 of 40
S.NO Date Day Topic
Subject : MATHS
432 25-Jun-17 Sun Sunday
26-Jun-17 ADVS COMPLETE P&C
433 26-Jun-17 Mon Classical definition of probability,types of events
434 27-Jun-17 TueAddition theorem and problems based on it
435 28-Jun-17 WedAddition theorem and problems based on it
29-Jun-2017Thu
Problems based on P &C
30-Jun-2017Fri
Problems based on P &C
1-Jul-2017Sat
1-Jul-2017
mains Classical definition of probability,types of events, Addition theorem,problems based on P &C
2-Jul-2017Sun
3-Jul-2017ADVS Classical definition of probability,types of events, Addition theorem,problems based on P &C
3-Jul-2017Mon
Conditional probabilityPage 38 of 40
S.NO Date Day Topic
Subject : MATHS
4-Jul-2017Tue
Independent events
5-Jul-2017Wed
Multiplication theorem
6-Jul-2017Thu
Total probability theorem, Baye’s Theorem
7-Jul-2017Fri
Total probability theorem, Baye’s Theorem
8-Jul-2017Sat
8-Jul-2017
MAINS
Classical definition of probability,types of events, Addition theorem,problems based on P &C
(30%)+ Conditional probability, Independent events, Multiplication theorem,Total probability
theorem, Baye’s Theorem(70%)
9-Jul-2017Sun
10-Jul-2017
ADVS
Classical definition of probability,types of events, Addition theorem,problems based on P &C
(30%)+ Conditional probability, Independent events, Multiplication theorem,Total probability
theorem, Baye’s Theorem(70%)
10-Jul-2017Mon
Random variable
10-Jul-2017Tue
Probability distribution
11-Jul-2017Wed
Binomial distribution
12-Jul-2017Thu
Miscellaneous problems on probability
13-Jul-2017 Fri Miscellaneous problems on probability
13-Jul-2017 Sat Page 39 of 40
S.NO Date Day Topic
Subject : MATHS
13-Jul-2017MAINS
Binomial distribution,Random variable, Probability distribution,(60%) + probability.(excluding JEE
MAINS Syllabus )(40%)
14-Jul-2017
15-Jul-2017 ADVS Complete probability
Page 40 of 40
S.NO
1
20-Apr-16 Wed
Basic Mathematics: Algebra(logarithms,quadratic equations and expressions),Trigonometry,Co-ordinate
geometry(Straightlines),Graphs: Straightline,Parabola,Rectangular hyperbola,Circle,sine,cosine,exponential + Include
expression for areas of standard geometrical figures like - cone, ellipse etc. Limits, Continuity & differentiation .
Application of differentiation - Maxima, Minima
2 21-Apr-16
Thu
Basic Mathematics: Algebra(logarithms,quadratic equations and expressions),Trigonometry,Co-ordinate
geometry(Straightlines),Graphs: Straightline,Parabola,Rectangular hyperbola,Circle,sine,cosine,exponential + Include
expression for areas of standard geometrical figures like - cone, ellipse etc. Limits, Continuity & differentiation .
Application of differentiation - Maxima, Minima
3 22-Apr-16 Fri
Basic Mathematics: Algebra(logarithms,quadratic equations and expressions),Trigonometry,Co-ordinate
geometry(Straightlines),Graphs: Straightline,Parabola,Rectangular hyperbola,Circle,sine,cosine,exponential + Include
expression for areas of standard geometrical figures like - cone, ellipse etc. Limits, Continuity & differentiation .
Application of differentiation - Maxima, Minima
4 23-Apr-16
Sat
Basic Mathematics: Algebra(logarithms,quadratic equations and expressions),Trigonometry,Co-ordinate
geometry(Straightlines),Graphs: Straightline,Parabola,Rectangular hyperbola,Circle,sine,cosine,exponential + Include
expression for areas of standard geometrical figures like - cone, ellipse etc. Limits, Continuity & differentiation .
Application of differentiation - Maxima, Minima
5 24-Apr-16 Sun
6
25-Apr-16
Mon
Integration & its application, Complete vectors (Introduction to physical quantities like Position Vectors , displacement Vectors ,Velocity Vector ,acceleraction Vector and mathematical relation between them), EXCLUDE ((Derivation of ) Problems on accelaration due to gravity ,Lammi's Theorem ,Projectile motion and relative motion ,Graphs
7
26-Apr-16 Tue
Integration & its application, Complete vectors (Introduction to physical quantities like Position Vectors , displacement Vectors ,Velocity Vector ,acceleraction Vector and mathematical relation between them), EXCLUDE ((Derivation of ) Problems on accelaration due to gravity ,Lammi's Theorem ,Projectile motion and relative motion ,Graphs
NARAYANA IIT ACADEMY
NARAYANA IIT ACADEMY DWARKA
For the Academic Year 2016-2017_Jr.IZ(Incoming Jr's)Micro Schedule Code: SriRam@2016
Subject : PHYSICS
2 2 21, , 2
2v u at s ut at v u as
2 2 21, , 2
2v u at s ut at v u as
Page 1 of 48
8
27-Apr-16 Wed
Integration & its application, Complete vectors (Introduction to physical quantities like Position Vectors , displacement Vectors ,Velocity Vector ,acceleraction Vector and mathematical relation between them), EXCLUDE ((Derivation of ) Problems on accelaration due to gravity ,Lammi's Theorem ,Projectile motion and relative motion ,Graphs
9 28-Apr-16 Thu
Integration & its application, Complete vectors (Introduction to physical quantities like Position Vectors , displacement Vectors ,Velocity Vector ,acceleraction Vector and mathematical relation between them), EXCLUDE ((Derivation of ) Problems on accelaration due to gravity ,Lammi's Theorem ,Projectile motion and relative motion ,Graphs
10
29-Apr-16 Fri
Integration & its application, Complete vectors (Introduction to physical quantities like Position Vectors
, displacement Vectors ,Velocity Vector ,acceleraction Vector and mathematical relation between them), EXCLUDE ((Derivation of ) Problems on accelaration due to gravity ,Lammi's Theorem ,Projectile motion and relative motion ,Graphs
11 30-Apr-16 Sat
Integration & its application, Complete vectors (Introduction to physical quantities like Position Vectors , displacement Vectors ,Velocity Vector ,acceleraction Vector and mathematical relation
between them), EXCLUDE ((Derivation of ) Problems on accelaration due to gravity
,Lammi's Theorem ,Projectile motion and relative motion ,Graphs (60%)Basic Mathematics: Algebra(logarithms,quadratic equations and expressions),Trigonometry,Co-ordinate geometry(Straightlines),Graphs: Straightline,Parabola,Rectangular hyperbola,Circle,sine,cosine,exponential + Include expression for areas of standard geometrical
figures like - cone, ellipse etc. Limits, Continuity & differentiation . Application of differentiation - Maxima, Minima, Integration & its application (40%)
12 1-May-16 Sun Sunday
Saturday Exam Syllabus
For JEE-Main
2 2 21, , 2
2v u at s ut at v u as
2 2 21, , 2
2v u at s ut at v u as
2 2 21, , 2
2v u at s ut at v u as
2 2 21, , 2
2v u at s ut at v u as
Page 2 of 48
Integration & its application, Complete vectors (Introduction to physical quantities like Position Vectors , displacement Vectors ,Velocity Vector ,acceleraction Vector and mathematical relation between them), EXCLUDE ((Derivation of ) Problems on accelaration due to gravity
,Lammi's Theorem ,Projectile motion and relative motion ,Graphs (60%)Basic Mathematics: Algebra(logarithms,quadratic equations and expressions),Trigonometry,Co-ordinate geometry(Straightlines),Graphs: Straightline,Parabola,Rectangular hyperbola,Circle,sine,cosine,exponential + Include expression for areas of standard geometrical figures like - cone, ellipse etc. Limits, Continuity & differentiation . Application of differentiation - Maxima, Minima, Integration & its application (40%)
13 2-May-16 Mon Kinematics : Motion in 1D,Uniform motion,uniform accelerated motion,motion under gravity and related graphs
14 3-May-16 Tue Kinematics : Motion in 1D,Uniform motion,uniform accelerated motion,motion under gravity and related graphs
15 4-May-16 Wed Kinematics : Motion in 1D,Uniform motion,uniform accelerated motion,motion under gravity and related graphs
16 5-May-16 Thu Kinematics : Motion in 1D,Uniform motion,uniform accelerated motion,motion under gravity and related graphs
17 6-May-16 Fri Kinematics : Motion in 1D,Uniform motion,uniform accelerated motion,motion under gravity and related graphs
18 7-May-16 Sat
Kinematics : Motion in 1D,Uniform motion,uniform accelerated motion,motion under gravity and related graphs (70%)
Integration & its application, Complete vectors (Introduction to physical quantities like Position Vectors , displacement
Vectors ,Velocity Vector ,acceleraction Vector and mathematical relation between them) (30%)
19 8-May-16 Sun Sunday
Kinematics : Motion in 1D,Uniform motion,uniform accelerated motion,motion under gravity and related graphs (60%)
Integration & its application, Complete vectors (Introduction to physical quantities like Position Vectors , displacement
Vectors ,Velocity Vector ,acceleraction Vector and mathematical relation between them) (30%)
Cummulative syllabus covered till now (10%)
20 9-May-16 MonNon - uniform accelarated motion in 1D & related graphs,Motion in 2D,Projectile motion(Excluding projection on inclined planes)
21 10-May-16 TueNon - uniform accelarated motion in 1D & related graphs,Motion in 2D,Projectile motion(Excluding projection on
inclined planes)
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Monday Exam Syllabus
For JEE-Advance
2 2 21, , 2
2v u at s ut at v u as
Page 3 of 48
22 11-May-16 WedNon - uniform accelarated motion in 1D & related graphs,Motion in 2D,Projectile motion(Excluding projection on inclined planes)
23 12-May-16 ThuNon - uniform accelarated motion in 1D & related graphs,Motion in 2D,Projectile motion(Excluding projection on inclined planes)
24 13-May-16 FriNon - uniform accelarated motion in 1D & related graphs,Motion in 2D,Projectile motion(Excluding projection on
inclined planes)
25 14-May-16 Sat
Non - uniform accelarated motion in 1D & related graphs,Motion in 2D,Projectile motion(Excluding
projection on inclined planes) (70%)Kinematics : Motion in 1D,Uniform motion,uniform accelerated motion,motion under gravity and related
graphs (30%)
26 15-May-16 Sun SundayNon - uniform accelarated motion in 1D & related graphs,Motion in 2D,Projectile motion(Excluding
projection on inclined planes) (60%)Kinematics : Motion in 1D,Uniform motion,uniform accelerated motion,motion under gravity and related graphs (30%)
Cummulative syllabus covered till now (10%)
2716-May-16 Mon
Projectile motion on inclined planes,relative velocity (Relative velocity 1D,2D,Rate of approach and rate of separation,condition for collission of two projectiles,relative motion of one projectile with respect to another
Projectile motion on inclined planes,relative velocity (Relative velocity 1D,2D,Rate of approach and rate of separation,condition for collission of two projectiles,relative motion of one projectile with respect to another projectile,rain problems,river boat problems,air craft wind problems etc..)
29 18-May-16 Wed
Projectile motion on inclined planes,relative velocity (Relative velocity 1D,2D,Rate of approach and rate of separation,condition for collission of two projectiles,relative motion of one projectile with respect to another projectile,rain problems,river boat problems,air craft wind problems etc..)
3019-May-16 Thu
Projectile motion on inclined planes,relative velocity (Relative velocity 1D,2D,Rate of approach and rate of
separation,condition for collission of two projectiles,relative motion of one projectile with respect to another projectile,rain problems,river boat problems,air craft wind problems etc..)
31 20-May-16 Fri
Projectile motion on inclined planes,relative velocity (Relative velocity 1D,2D,Rate of approach and rate of
separation,condition for collission of two projectiles,relative motion of one projectile with respect to another projectile,rain problems,river boat problems,air craft wind problems etc..)
32 21-May-16 Sat
Projectile motion on inclined planes,relative velocity (Relative velocity 1D,2D,Rate of approach and rate of
separation,condition for collission of two projectiles,relative motion of one projectile with respect to another projectile,rain problems,river boat problems,air craft wind problems etc..) (70%)Non - uniform accelarated motion in 1D & related graphs,Motion in 2D,Projectile motion(Excluding projection on
inclined planes) (30%)
33 22-May-16 Sun Sunday
Saturday Exam Syllabus
For JEE-Main
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Page 4 of 48
Projectile motion on inclined planes,relative velocity (Relative velocity 1D,2D,Rate of approach and rate of separation,condition for collission of two projectiles,relative motion of one projectile with respect to another projectile,rain problems,river boat problems,air craft wind problems etc..) (60%)Non - uniform accelarated motion in 1D & related graphs,Motion in 2D,Projectile motion(Excluding projection on
inclined planes) (30%)
Cummulative syllabus covered till now (10%)
34
23-May-16 Mon
Newton’s Laws Of Motion (Without Friction): Cause of motion, cause for the change of motion, Newton's first law,
qualitative definition of force, inertia and mass, types of inertia,Newton's second law, quantitative definition of force,
definition of unit force, dimensional formula and SI units of force, Newton's third law, action and reaction, Internal and
external forces in case of system of objects,Discussion on cancellation of action and reaction forces,Inertial and non
inertial frames of reference and pseudo force, Problems on simple application of NLM - Atwood machine, Lift
problems, spring balance, weighing machine etc, EXCLUDE : The problems involving constraints like multiple pulley &
multiple contact problems
35 24-May-16 Tue
Newton’s Laws Of Motion (Without Friction): Cause of motion, cause for the change of motion, Newton's first law,
qualitative definition of force, inertia and mass, types of inertia,Newton's second law, quantitative definition of force,
definition of unit force, dimensional formula and SI units of force, Newton's third law, action and reaction, Internal and
external forces in case of system of objects,Discussion on cancellation of action and reaction forces,Inertial and non
inertial frames of reference and pseudo force, Problems on simple application of NLM - Atwood machine, Lift
problems, spring balance, weighing machine etc, EXCLUDE : The problems involving constraints like multiple pulley &
multiple contact problems
36
25-May-16 Wed
Newton’s Laws Of Motion (Without Friction): Cause of motion, cause for the change of motion, Newton's first law,
qualitative definition of force, inertia and mass, types of inertia,Newton's second law, quantitative definition of force,
definition of unit force, dimensional formula and SI units of force, Newton's third law, action and reaction, Internal and
external forces in case of system of objects,Discussion on cancellation of action and reaction forces,Inertial and non
inertial frames of reference and pseudo force, Problems on simple application of NLM - Atwood machine, Lift
problems, spring balance, weighing machine etc, EXCLUDE : The problems involving constraints like multiple pulley &
multiple contact problems
37 26-May-16 Thu
Newton’s Laws Of Motion (Without Friction): Cause of motion, cause for the change of motion, Newton's first law,
qualitative definition of force, inertia and mass, types of inertia,Newton's second law, quantitative definition of force,
definition of unit force, dimensional formula and SI units of force, Newton's third law, action and reaction, Internal and
external forces in case of system of objects,Discussion on cancellation of action and reaction forces,Inertial and non
inertial frames of reference and pseudo force, Problems on simple application of NLM - Atwood machine, Lift
problems, spring balance, weighing machine etc, EXCLUDE : The problems involving constraints like multiple pulley &
multiple contact problems
Monday Exam Syllabus
For JEE-Advance
Page 5 of 48
38
27-May-16 Fri
Newton’s Laws Of Motion (Without Friction): Cause of motion, cause for the change of motion, Newton's first law,
qualitative definition of force, inertia and mass, types of inertia,Newton's second law, quantitative definition of force,
definition of unit force, dimensional formula and SI units of force, Newton's third law, action and reaction, Internal and
external forces in case of system of objects,Discussion on cancellation of action and reaction forces,Inertial and non
inertial frames of reference and pseudo force, Problems on simple application of NLM - Atwood machine, Lift
problems, spring balance, weighing machine etc, EXCLUDE : The problems involving constraints like multiple pulley &
multiple contact problems
39 28-May-16 Sat
Newton’s Laws Of Motion (Without Friction): Cause of motion, cause for the change of motion, Newton's first law, qualitative definition of force, inertia and mass, types of inertia,Newton's second law, quantitative definition of force, definition of unit force, dimensional formula and SI
units of force, Newton's third law, action and reaction, Internal and external forces in case of system of objects,Discussion on cancellation of action and reaction forces,Inertial and non inertial frames of reference and pseudo force, Problems on simple application of NLM - Atwood machine, Lift problems, spring balance, weighing machine etc, EXCLUDE : The problems involving constraints like multiple pulley & multiple contact problems(70%)Projectile motion on inclined planes,relative velocity (Relative velocity 1D,2D,Rate of approach and rate of separation,condition for collission of two projectiles,relative motion of one projectile
with respect to another projectile,rain problems,river boat problems,air craft wind problems etc..) (30%)
40 29-May-16 Sun Sunday
Newton’s Laws Of Motion (Without Friction): Cause of motion, cause for the change of motion, Newton's first law, qualitative definition of force, inertia and mass, types of inertia,Newton's second law, quantitative definition of force, definition of unit force, dimensional formula and SI
units of force, Newton's third law, action and reaction, Internal and external forces in case of system of objects,Discussion on cancellation of action and reaction forces,Inertial and non inertial frames of reference and pseudo force, Problems on simple application of NLM - Atwood machine, Lift problems, spring balance, weighing machine etc, EXCLUDE : The problems involving constraints like multiple pulley & multiple contact problems(60%)Projectile motion on inclined planes,relative velocity (Relative velocity 1D,2D,Rate of approach
and rate of separation,condition for collission of two projectiles,relative motion of one projectile with respect to another projectile,rain problems,river boat problems,air craft wind problems etc..) (30%)Cummulative syllabus covered till now (10%)
Saturday Exam Syllabus
For JEE-Main
Monday Exam Syllabus
For JEE-Advance
Page 6 of 48
41 30-May-16 Mon constraint equations,Problems in NLM without friction (Including spring problems)
42 31-May-16 Tue constraint equations,Problems in NLM without friction (Including spring problems)
43 1-Jun-16 Wed constraint equations,Problems in NLM without friction (Including spring problems)
44 2-Jun-16 Thu constraint equations,Problems in NLM without friction (Including spring problems)
45 3-Jun-16 Fri constraint equations,Problems in NLM without friction (Including spring problems)
46 4-Jun-16 Sat
constraint equations,Problems in NLM without friction (Including spring problems)(70%)Newton’s Laws Of Motion (Without Friction): Cause of motion, cause for the change of motion, Newton's first law, qualitative definition of force, inertia and mass, types of inertia,Newton's second law, quantitative definition of force, definition of unit force, dimensional formula and SI
units of force, Newton's third law, action and reaction, Internal and external forces in case of system of objects,Discussion on cancellation of action and reaction forces,Inertial and non inertial frames of reference and pseudo force, Problems on simple application of NLM - Atwood machine, Lift problems, spring balance, weighing machine etc, EXCLUDE : The problems involving constraints like multiple pulley & multiple contact problems(30%)
47 5-Jun-16 Sun Sunday
constraint equations,Problems in NLM without friction (Including spring problems)(60%)Newton’s Laws Of Motion (Without Friction): Cause of motion, cause for the change of motion, Newton's first law, qualitative definition of force, inertia and mass, types of inertia,Newton's second law, quantitative definition of force, definition of unit force, dimensional formula and SI units of force, Newton's third law, action and reaction, Internal and external forces in case of
system of objects,Discussion on cancellation of action and reaction forces,Inertial and non inertial frames of reference and pseudo force, Problems on simple application of NLM - Atwood machine, Lift problems, spring balance, weighing machine etc, EXCLUDE : The problems involving
constraints like multiple pulley & multiple contact problems(30%)Cummulative syllabus covered till now (10%)
Saturday Exam Syllabus
For JEE-Main
Monday Exam Syllabus
For JEE-Advance
Page 7 of 48
48
6-Jun-16 Mon
Friction: A solid surface relatively at rest on another solid surface, static friction as a force opposing the tendency of
relative motion on the other surface. Limiting friction, coefficient of static friction, Difference between fs,max/fs and
static friction as a self adjusting force, angle of friction. Direction of static friction, related Numerical problems,Friction
as the cause of motion (walking, vehicles etc). Minimum force required to move a block on a fixed horizontal surface on
another block with horizontal surface,A solid surface moving relatively on another solid surface. Kinetic friction
(Dynamic or sliding friction). Coefficient of kinetic friction. Direction of Kinetic friction,Cause of static friction, cause
of kinetic friction, methods to reduce friction, Advantages and disadvantages of friction, Dependence of friction on area
of contact, polishing a surface, A block on a fixed rough inclined plane, angle of repose,cases and acceleration down the
plane. Body projected up along the inclined plane etc,Miscellaneous problems on Friction
49 7-Jun-16 Tue
Friction: A solid surface relatively at rest on another solid surface, static friction as a force opposing the tendency of
relative motion on the other surface. Limiting friction, coefficient of static friction, Difference between fs,max/fs and
static friction as a self adjusting force, angle of friction. Direction of static friction, related Numerical problems,Friction
as the cause of motion (walking, vehicles etc). Minimum force required to move a block on a fixed horizontal surface on
another block with horizontal surface,A solid surface moving relatively on another solid surface. Kinetic friction
(Dynamic or sliding friction). Coefficient of kinetic friction. Direction of Kinetic friction,Cause of static friction, cause
of kinetic friction, methods to reduce friction, Advantages and disadvantages of friction, Dependence of friction on area
of contact, polishing a surface, A block on a fixed rough inclined plane, angle of repose,cases and acceleration down the
plane. Body projected up along the inclined plane etc,Miscellaneous problems on Friction
50 8-Jun-16 Wed
Friction: A solid surface relatively at rest on another solid surface, static friction as a force opposing the tendency of
relative motion on the other surface. Limiting friction, coefficient of static friction, Difference between fs,max/fs and
static friction as a self adjusting force, angle of friction. Direction of static friction, related Numerical problems,Friction
as the cause of motion (walking, vehicles etc). Minimum force required to move a block on a fixed horizontal surface on
another block with horizontal surface,A solid surface moving relatively on another solid surface. Kinetic friction
(Dynamic or sliding friction). Coefficient of kinetic friction. Direction of Kinetic friction,Cause of static friction, cause
of kinetic friction, methods to reduce friction, Advantages and disadvantages of friction, Dependence of friction on area
of contact, polishing a surface, A block on a fixed rough inclined plane, angle of repose,cases and acceleration down the
plane. Body projected up along the inclined plane etc,Miscellaneous problems on Friction
Page 8 of 48
51
9-Jun-16 Thu
Friction: A solid surface relatively at rest on another solid surface, static friction as a force opposing the tendency of
relative motion on the other surface. Limiting friction, coefficient of static friction, Difference between fs,max/fs and
static friction as a self adjusting force, angle of friction. Direction of static friction, related Numerical problems,Friction
as the cause of motion (walking, vehicles etc). Minimum force required to move a block on a fixed horizontal surface on
another block with horizontal surface,A solid surface moving relatively on another solid surface. Kinetic friction
(Dynamic or sliding friction). Coefficient of kinetic friction. Direction of Kinetic friction,Cause of static friction, cause
of kinetic friction, methods to reduce friction, Advantages and disadvantages of friction, Dependence of friction on area
of contact, polishing a surface, A block on a fixed rough inclined plane, angle of repose,cases and acceleration down the
plane. Body projected up along the inclined plane etc,Miscellaneous problems on Friction
52 10-Jun-16 Fri
Friction: A solid surface relatively at rest on another solid surface, static friction as a force opposing the tendency of
relative motion on the other surface. Limiting friction, coefficient of static friction, Difference between fs,max/fs and
static friction as a self adjusting force, angle of friction. Direction of static friction, related Numerical problems,Friction
as the cause of motion (walking, vehicles etc). Minimum force required to move a block on a fixed horizontal surface on
another block with horizontal surface,A solid surface moving relatively on another solid surface. Kinetic friction
(Dynamic or sliding friction). Coefficient of kinetic friction. Direction of Kinetic friction,Cause of static friction, cause
of kinetic friction, methods to reduce friction, Advantages and disadvantages of friction, Dependence of friction on area
of contact, polishing a surface, A block on a fixed rough inclined plane, angle of repose,cases and acceleration down the
plane. Body projected up along the inclined plane etc,Miscellaneous problems on Friction
53 11-Jun-16 Sat
Friction: A solid surface relatively at rest on another solid surface, static friction as a force opposing the tendency of relative motion on the other surface. Limiting friction, coefficient of static friction, Difference
between fs,max/fs and static friction as a self adjusting force, angle of friction. Direction of static friction,
related Numerical problems,Friction as the cause of motion (walking, vehicles etc). Minimum force
required to move a block on a fixed horizontal surface on another block with horizontal surface,A solid
surface moving relatively on another solid surface. Kinetic friction (Dynamic or sliding friction). Coefficient of kinetic friction. Direction of Kinetic friction,Cause of static friction, cause of kinetic friction, methods to reduce friction, Advantages and disadvantages of friction, Dependence of friction on area of
contact, polishing a surface, A block on a fixed rough inclined plane, angle of repose,cases and acceleration
down the plane. Body projected up along the inclined plane etc,Miscellaneous problems on Friction(70%)constraint equations,Problems in NLM without friction (Including spring problems)(30%)
54 12-Jun-16 Sun Sunday
Saturday Exam Syllabus
For JEE-Main
Page 9 of 48
Friction: A solid surface relatively at rest on another solid surface, static friction as a force opposing the tendency of relative motion on the other surface. Limiting friction, coefficient of static friction, Difference between fs,max/fs and static friction as a self adjusting force, angle of friction. Direction of static friction, related Numerical problems,Friction as the cause of motion (walking, vehicles etc). Minimum force
required to move a block on a fixed horizontal surface on another block with horizontal surface,A solid surface moving relatively on another solid surface. Kinetic friction (Dynamic or sliding friction). Coefficient of kinetic friction. Direction of Kinetic friction,Cause of static friction, cause of kinetic friction, methods to reduce friction, Advantages and disadvantages of friction, Dependence of friction on area of contact, polishing a surface, A block on a fixed rough inclined plane, angle of repose,cases and acceleration down the plane. Body projected up along the inclined plane etc,Miscellaneous problems on Friction(60%)constraint equations,Problems in NLM without friction (Including spring problems)(30%)Cummulative syllabus covered till now (10%)
55 13-Jun-16 MonCircular Motion(Excluding verticle circle): Kinematics & Dynamics of circular motion (Centrepetal force & Centrifugal
force) banking problems + Angular Velocity of Particle (in general motion) about a point
56 14-Jun-16 TueCircular Motion(Excluding verticle circle): Kinematics & Dynamics of circular motion (Centrepetal force & Centrifugal
force) banking problems + Angular Velocity of Particle (in general motion) about a point
57 15-Jun-16 WedCircular Motion(Excluding verticle circle): Kinematics & Dynamics of circular motion (Centrepetal force & Centrifugal
force) banking problems + Angular Velocity of Particle (in general motion) about a point
58 16-Jun-16 ThuCircular Motion(Excluding verticle circle): Kinematics & Dynamics of circular motion (Centrepetal force & Centrifugal
force) banking problems + Angular Velocity of Particle (in general motion) about a point
59 17-Jun-16 FriCircular Motion(Excluding verticle circle): Kinematics & Dynamics of circular motion (Centrepetal force & Centrifugal
force) banking problems + Angular Velocity of Particle (in general motion) about a point
60 18-Jun-16 Sat
Circular Motion(Excluding verticle circle): Kinematics & Dynamics of circular motion (Centrepetal force &
Centrifugal force) banking problems + Angular Velocity of Particle (in general motion) about a
point(70%)
Friction: A solid surface relatively at rest on another solid surface, static friction as a force opposing the
tendency of relative motion on the other surface. Limiting friction, coefficient of static friction, Difference between fs,max/fs and static friction as a self adjusting force, angle of friction. Direction of static friction, related Numerical problems,Friction as the cause of motion (walking, vehicles etc). Minimum force
required to move a block on a fixed horizontal surface on another block with horizontal surface,A solid
surface moving relatively on another solid surface. Kinetic friction (Dynamic or sliding friction).
Coefficient of kinetic friction. Direction of Kinetic friction,Cause of static friction, cause of kinetic friction,
methods to reduce friction, Advantages and disadvantages of friction, Dependence of friction on area of contact, polishing a surface, A block on a fixed rough inclined plane, angle of repose,cases and acceleration
down the plane. Body projected up along the inclined plane etc,Miscellaneous problems on Friction(30%)
61 19-Jun-16 Sun Sunday
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Page 10 of 48
Circular Motion(Excluding verticle circle): Kinematics & Dynamics of circular motion (Centrepetal force & Centrifugal force) banking problems + Angular Velocity of Particle (in general motion) about a point(60%)Friction: A solid surface relatively at rest on another solid surface, static friction as a force opposing the tendency of relative motion on the other surface. Limiting friction, coefficient of static friction, Difference
between fs,max/fs and static friction as a self adjusting force, angle of friction. Direction of static friction, related Numerical problems,Friction as the cause of motion (walking, vehicles etc). Minimum force required to move a block on a fixed horizontal surface on another block with horizontal surface,A solid surface moving relatively on another solid surface. Kinetic friction (Dynamic or sliding friction). Coefficient of kinetic friction. Direction of Kinetic friction,Cause of static friction, cause of kinetic friction, methods to reduce friction, Advantages and disadvantages of friction, Dependence of friction on area of contact, polishing a surface, A block on a fixed rough inclined plane, angle of repose,cases and acceleration down the plane. Body projected up along the inclined plane etc,Miscellaneous problems on Friction(30%)
Cummulative syllabus covered till now (10%)
62 20-Jun-16 Mon HOME-SICK HOLIDAYS
63 21-Jun-16 Tue HOME-SICK HOLIDAYS
64 22-Jun-16 Wed HOME-SICK HOLIDAYS
65 23-Jun-16 Thu HOME-SICK HOLIDAYS
66 24-Jun-16 Fri HOME-SICK HOLIDAYS
67 25-Jun-16 Sat HOME-SICK HOLIDAYS
68 26-Jun-16 Sun HOME-SICK HOLIDAYS
69 27-Jun-16 MonWork ,Power, Energy : Work, Kinetic energy,work - enegry theorem,conservative and non conservative
forces,potential energy,conservation of energy(Excluding spring problems)
70 28-Jun-16 TueWork ,Power, Energy : Work, Kinetic energy,work - enegry theorem,conservative and non conservative
forces,potential energy,conservation of energy(Excluding spring problems)
71 29-Jun-16 WedWork ,Power, Energy : Work, Kinetic energy,work - enegry theorem,conservative and non conservative
forces,potential energy,conservation of energy(Excluding spring problems)
72 30-Jun-16 ThuWork ,Power, Energy : Work, Kinetic energy,work - enegry theorem,conservative and non conservative
forces,potential energy,conservation of energy(Excluding spring problems)
73 1-Jul-16 FriWork ,Power, Energy : Work, Kinetic energy,work - enegry theorem,conservative and non conservative
forces,potential energy,conservation of energy(Excluding spring problems)
74 2-Jul-16 Sat
75 3-Jul-16 Sun Sunday
Monday Exam Syllabus
For JEE-Advance
Page 11 of 48
Work, Kinetic energy,work - enegry theorem,conservative and non conservative forces,potential energy,conservation of energy(Excluding spring problems)(70%), EXCLUDE: Problems related to power. Circular Motion(Excluding verticle circle): Kinematics & Dynamics of circular motion (Centrepetal force & Centrifugal force) banking problems + Angular Velocity of Particle (in general motion) about a point(30%)
Work, Kinetic energy,work - enegry theorem,conservative and non conservative forces,potential energy,conservation of energy(Excluding spring problems)(60%), EXCLUDE: Problems related to power. Circular Motion(Excluding verticle circle): Kinematics & Dynamics of circular motion (Centrepetal force & Centrifugal force) banking problems + Angular Velocity of Particle (in general motion) about a point(30%)Cummulative syllabus covered till now (10%)
76 4-Jul-16 MonSpring problems in WPE,Equilibrium- Stable,unstable & neutral,Power,Motion of a body in verticle circular motion
77 5-Jul-16 TueSpring problems in WPE,Equilibrium- Stable,unstable & neutral,Power,Motion of a body in verticle circular motion
78 6-Jul-16 Wed Ramzan
79 7-Jul-16 ThuSpring problems in WPE,Equilibrium- Stable,unstable & neutral,Power,Motion of a body in verticle circular motion
80 8-Jul-16 FriSpring problems in WPE,Equilibrium- Stable,unstable & neutral,Power,Motion of a body in verticle circular motion
81 9-Jul-16 Sat
82 10-Jul-16 Sun Sunday
Spring problems in WPE,Equilibrium- Stable,unstable & neutral,Power,Motion of a body in verticle circular motion(70%)Work, Kinetic energy,work - enegry theorem,conservative and non conservative forces,potential energy,conservation of energy(Excluding spring problems)(30%), EXCLUDE: Problems related to power.
Spring problems in WPE,Equilibrium- Stable,unstable & neutral,Power,Motion of a body in verticle circular motion(60%)Work, Kinetic energy,work - enegry theorem,conservative and non conservative forces,potential energy,conservation of energy(Excluding spring problems)(30%), EXCLUDE: Problems related to power. Cummulative syllabus covered till now (10%)
11-Jul-16 MonCentre Of Mass,Linear momentum,Impulse & Collisions: Centre of Mass & Conservation of linear
Momentum(Excluding variable mass)
84 12-Jul-16 TueCentre Of Mass,Linear momentum,Impulse & Collisions: Centre of Mass & Conservation of linear
Momentum(Excluding variable mass)
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 12 of 48
85 13-Jul-16 WedCentre Of Mass,Linear momentum,Impulse & Collisions: Centre of Mass & Conservation of linear
Momentum(Excluding variable mass)
86 14-Jul-16 ThuCentre Of Mass,Linear momentum,Impulse & Collisions: Centre of Mass & Conservation of linear
Momentum(Excluding variable mass)
87 15-Jul-16 FriCentre Of Mass,Linear momentum,Impulse & Collisions: Centre of Mass & Conservation of linear
Momentum(Excluding variable mass)
88 16-Jul-16 Sat
89 17-Jul-16 Sun Sunday
Centre of Mass & Conservation of linear Momentum: Centre of Mass & COLM - Problems involving situations like block on a movable wedge, explosion etc. {EXCLUDE : Calculation of impulse, collisions and variable mass problems) (70%)Spring problems in WPE,Equilibrium- Stable,unstable & neutral,Power,Motion of a body in
verticle circular motion(30%)
Centre of Mass & Conservation of linear Momentum: Centre of Mass & COLM - Problems involving situations like block on a movable wedge, explosion etc. {EXCLUDE : Calculation of impulse, collisions and variable mass problems) (60%)Spring problems in WPE,Equilibrium- Stable,unstable & neutral,Power,Motion of a body in verticle circular motion(30%)
Cummulative syllabus covered till now (10%)
SYLLABUS COVERED FROM 20-06-16 TO 16-07-16
90 18-Jul-16 Mon Impulse and collisions, Variable mass systems
91 19-Jul-16 Tue Impulse and collisions, Variable mass systems
92 20-Jul-16 Wed Impulse and collisions, Variable mass systems
93 21-Jul-16 Thu Impulse and collisions, Variable mass systems
94 22-Jul-16 Fri Impulse and collisions, Variable mass systems
95 23-Jul-16 Sat
96 24-Jul-16 Sun Sunday
Impulse and collisions, Variable mass systems (70%)Centre of Mass & Conservation of linear Momentum: Centre of Mass & COLM - Problems involving situations like block on a movable wedge, explosion etc. {EXCLUDE : Calculation of impulse, collisions and variable mass problems) (30%)
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Main
MONDAY Exam Syllabus
Page 13 of 48
Impulse and collisions, Variable mass systems (60%)Centre of Mass & Conservation of linear Momentum: Centre of Mass & COLM - Problems involving situations like block on a movable wedge, explosion etc. {EXCLUDE : Calculation of impulse, collisions and variable mass problems) (30%)Cummulative syllabus covered till now (10%)
25-Jul-16 Mon
Units and dimensional analysis of physical quantities taught till now ,Significent figure ,Rounding off of numbers , Accuracy , Precision (All rules pertaining to above topics as per NCERT text book ), Error Analysis of Physical quantities, Experiments based on usuing vernier callipers and Screw gauge (micrometer) Determination of g using Simple penduium
98 26-Jul-16 Tue
Units and dimensional analysis of physical quantities taught till now,Significent figure ,Rounding off of
numbers , Accuracy , Precision (All rules pertaining to above topics as per NCERT text book ), Error Analysis of Physical quantities, Experiments based on usuing vernier callipers and Screw gauge (micrometer) Determination of g using Simple penduium
99 27-Jul-16 Wed
Units and dimensional analysis of physical quantities taught till now,Significent figure ,Rounding off of numbers , Accuracy , Precision (All rules pertaining to above topics as per NCERT text book ), Error Analysis of Physical quantities, Experiments based on usuing vernier callipers and Screw gauge
(micrometer) Determination of g using Simple penduium
100 28-Jul-16 Thu
Units and dimensional analysis of physical quantities taught till now,Significent figure ,Rounding off of numbers , Accuracy , Precision (All rules pertaining to above topics as per NCERT text book ), Error Analysis of Physical quantities, Experiments based on usuing vernier callipers and Screw gauge (micrometer) Determination of g using Simple penduium
101 29-Jul-16 Fri
Units and dimensional analysis of physical quantities taught till now,Significent figure ,Rounding off of numbers , Accuracy , Precision (All rules pertaining to above topics as per NCERT text book ), Error Analysis of Physical quantities, Experiments based on usuing vernier callipers and Screw gauge (micrometer) Determination of g using Simple penduium
102 30-Jul-16 Sat
103 31-Jul-16 Sun Sunday
Sunday Exam Syllabus
For JEE-Advance
Page 14 of 48
Units and dimensional analysis of physical quantities taught till now,Significent figure ,Rounding off of numbers , Accuracy , Precision (All rules pertaining to above topics as per NCERT text book ), Error Analysis of Physical quantities, Experiments based on usuing vernier callipers and Screw gauge (micrometer) Determination of g using Simple penduium (70%)
Impulse and collisions, Variable mass systems (30%)
Significent figure ,Rounding off of numbers , Accuracy , Precision (All rules pertaining to above topics as per NCERT text book ), Error Analysis of Physical quantities, Experiments based on usuing vernier callipers and Screw gauge (micrometer) Determination of g using Simple penduium (60%)Impulse and collisions, Variable mass systems (30%)Cummulative syllabus covered till now (10%)
104 1-Aug-16 MonRotation: Torque,Equilibrium, Kinematics of Rotation of rigid body about fixed axis of rotation, angular momentum of a particle (EXCLUDE MOMENT OF INERTIA)
105 2-Aug-16 TueRotation: Torque,Equilibrium, Kinematics of Rotation of rigid body about fixed axis of rotation, angular momentum of a particle (EXCLUDE MOMENT OF INERTIA)
106 3-Aug-16 WedRotation: Torque,Equilibrium, Kinematics of Rotation of rigid body about fixed axis of rotation, angular momentum of a particle (EXCLUDE MOMENT OF INERTIA)
107 4-Aug-16 ThuRotation: Torque,Equilibrium, Kinematics of Rotation of rigid body about fixed axis of rotation, angular
momentum of a particle (EXCLUDE MOMENT OF INERTIA)
108 5-Aug-16 FriRotation: Torque,Equilibrium, Kinematics of Rotation of rigid body about fixed axis of rotation, angular momentum of a particle (EXCLUDE MOMENT OF INERTIA)
109 6-Aug-16 Sat
110 7-Aug-16 Sun Sunday
Rotation: Torque,Equilibrium, Kinematics of Rotation of rigid body about fixed axis of rotation, angular momentum of a particle (EXCLUDE MOMENT OF INERTIA) (100%)
Rotation: Torque,Equilibrium, Kinematics of Rotation of rigid body about fixed axis of rotation, anguar momentum of a particle(90%)Cummulative syllabus covered till now (10%)
111 8-Aug-16 MonMoment of inertia, parallel and perpendicular axis theorems, Rotation of rigid body about fixed axis: Derivation of
τ =Iα, applications of τ =Iα(including pulley - block problems
112 9-Aug-16 TueMoment of inertia, parallel and perpendicular axis theorems, Rotation of rigid body about fixed axis: Derivation of τ =Iα, applications of τ =Iα(including pulley - block problems
113 10-Aug-16 WedMoment of inertia, parallel and perpendicular axis theorems, Rotation of rigid body about fixed axis: Derivation of τ =Iα, applications of τ =Iα(including pulley - block problems
114 11-Aug-16 ThuMoment of inertia, parallel and perpendicular axis theorems, Rotation of rigid body about fixed axis: Derivation of τ =Iα, applications of τ =Iα(including pulley - block problems
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 15 of 48
115 12-Aug-16 FriMoment of inertia, parallel and perpendicular axis theorems, Rotation of rigid body about fixed axis: Derivation of τ =Iα, applications of τ =Iα(including pulley - block problems
116 13-Aug-16 Sat
117 14-Aug-16 Sun Sunday
Moment of inertia, parallel and perpendicular axis theorems, Rotation of rigid body about fixed axis: Derivation of τ =Iα, applications of τ =Iα(including pulley - block problems (70%)Rotation: Torque,Equilibrium, Kinematics of Rotation of rigid body about fixed axis of rotation, anguar momentum of a particle(30%)
Moment of inertia, parallel and perpendicular axis theorems, Rotation of rigid body about fixed axis: Derivation of τ =Iα, applications of τ =Iα(including pulley - block problems (60%)
Rotation: Torque,Equilibrium, Kinematics of Rotation of rigid body about fixed axis of rotation, anguar momentum of a particle(30%)Cummulative syllabus covered till now (10%)
SYLLABUS COVERED FROM 18-07-16 TO 13-08-16
118 15-Aug-16 Mon INDEPENDENCE DAY
119 16-Aug-16 TueCalculation of angular momentum of a rigid body, Rolling and toppling (EXCLUDE Conservation of angular momentum, Impulse and Collisions involving rigid body)
120 17-Aug-16 WedCalculation of angular momentum of a rigid body, Rolling and toppling (EXCLUDE Conservation of angular momentum, Impulse and Collisions involving rigid body)
121 18-Aug-16 Thu RAKHI
122 19-Aug-16 FriCalculation of angular momentum of a rigid body, Rolling and toppling (EXCLUDE Conservation of angular
momentum, Impulse and Collisions involving rigid body)
123 20-Aug-16 Sat
124 21-Aug-16 Sun SundayCalculation of angular momentum of a rigid body, Rolling and toppling (EXCLUDE Conservation of angular momentum, Impulse and Collisions involving rigid body) (70%)Moment of inertia, parallel and perpendicular axis theorems, Rotation of rigid body about fixed axis: Derivation of τ =Iα, applications of τ =Iα(including pulley - block problems (30%)Calculation of angular momentum of a rigid body, Rolling and toppling (EXCLUDE Conservation of angular momentum, Impulse and Collisions involving rigid body) (60%)Moment of inertia, parallel and perpendicular axis theorems, Rotation of rigid body about fixed axis: Derivation of
τ =Iα, applications of τ =Iα(including pulley - block problems (30%)Cummulative syllabus covered till now (10%)
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
MONDAY Exam Syllabus
For JEE-Advance (CT-4)
Page 16 of 48
125 22-Aug-16 Mon
Conservation of angular momentum, Impulse and Collisions involving rigid body ; Gravitation : Introduction, Newton’s law of gravitation,gravitational field due to point mass and distributed mass,Variation of g with different factors.(EXCLUDE Gravitational Potential)
126 23-Aug-16 Tue
Conservation of angular momentum, Impulse and Collisions involving rigid body ; Gravitation : Introduction, Newton’s law of gravitation,gravitational field due to point mass and distributed mass,Variation of g with different
factors.(EXCLUDE Gravitational Potential)
127 24-Aug-16 Wed
Conservation of angular momentum, Impulse and Collisions involving rigid body ; Gravitation : Introduction, Newton’s law of gravitation,gravitational field due to point mass and distributed mass,Variation of g with different
factors.(EXCLUDE Gravitational Potential)
128 25-Aug-16 Thu KRISHNASHTAMI
129 26-Aug-16 Fri
Conservation of angular momentum, Impulse and Collisions involving rigid body ; Gravitation : Introduction, Newton’s law of gravitation,gravitational field due to point mass and distributed mass,Variation of g with different
factors.(EXCLUDE Gravitational Potential)
130 27-Aug-16 Sat
131 28-Aug-16 Sun Sunday
Conservation of angular momentum, Impulse and Collisions involving rigid body ; Gravitation : Introduction, Newton’s law of gravitation,gravitational field due to point mass and distributed mass,Variation of g with different factors.(EXCLUDE Gravitational Potential) (70%)Calculation of angular momentum of a rigid body Rolling and toppling (30%)
Conservation of angular momentum, Impulse and Collisions involving rigid body ; Gravitation : Introduction, Newton’s law of gravitation,gravitational field due to point mass and distributed mass,Variation of g with different factors.(EXCLUDE Gravitational Potential) (60%)Calculation of angular momentum of a rigid body Rolling and toppling (30%) Cummulative syllabus covered till now (10%)
132 29-Aug-16 Mon
Gravitational potential due to a point mass,gravitational potential due to distributed mass,conservation of
energy,Motion of satellites and planets in circular orbits,orbital velocity,escape velocity,geo-stationary satellites,kepler's laws of planetary motion,Gravitational Pressure and self energy
133 30-Aug-16 Tue
Gravitational potential due to a point mass,gravitational potential due to distributed mass,conservation of energy,Motion of satellites and planets in circular orbits,orbital velocity,escape velocity,geo-stationary
satellites,kepler's laws of planetary motion,Gravitational Pressure and self energy
134 31-Aug-16 Wed
Gravitational potential due to a point mass,gravitational potential due to distributed mass,conservation of
energy,Motion of satellites and planets in circular orbits,orbital velocity,escape velocity,geo-stationary satellites,kepler's laws of planetary motion,Gravitational Pressure and self energy
135 1-Sep-16 Thu
Gravitational potential due to a point mass,gravitational potential due to distributed mass,conservation of energy,Motion of satellites and planets in circular orbits,orbital velocity,escape velocity,geo-stationary satellites,kepler's laws of planetary motion,Gravitational Pressure and self energy
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 17 of 48
136 2-Sep-16 Fri
Gravitational potential due to a point mass,gravitational potential due to distributed mass,conservation of energy,Motion of satellites and planets in circular orbits,orbital velocity,escape velocity,geo-stationary
satellites,kepler's laws of planetary motion,Gravitational Pressure and self energy
137 3-Sep-16 Sat
138 4-Sep-16 Sun Sunday
Gravitational potential due to a point mass,gravitational potential due to distributed mass,conservation of energy,Motion of satellites and planets in circular orbits,orbital velocity,escape velocity,geo-stationary satellites,kepler's laws of planetary motion,Gravitational Pressure and self energy (70%) Conservation of angular momentum, Impulse and Collisions involving rigid body, Gravitation : Introduction, Newton’s law of gravitation,gravitational field due to point mass and distributed
mass,Variation of g with different factors.(EXCLUDE Gravitational Potential) (30%)
Gravitational potential due to a point mass,gravitational potential due to distributed mass,conservation of energy,Motion of satellites and planets in circular orbits,orbital velocity,escape velocity,geo-stationary satellites,kepler's laws of planetary motion,Gravitational Pressure and self energy (60%) Conservation of angular momentum, Impulse and Collisions involving rigid body, Gravitation :
Introduction, Newton’s law of gravitation,gravitational field due to point mass and distributed mass,Variation of g with different factors.(EXCLUDE Gravitational Potential) (30%)Cummulative syllabus covered till now (10%)
139 5-Sep-16 Mon GANESH CHATURDHI
140 6-Sep-16 Tue
Fluid Statics: Definition of fluid, Ideal fluid, Density, Relative density (Specific gravity), Hydro static pressure
in a fluid, Variation of pressure with depth, Atmospheric pressure, Barometer, Mano meter, Vacuum pressure,
Gauge pressure, Absolute pressure,Free surface of a Fluid, Pascal's law, Hydraulic lift, Archimedes' Principle,
Principle of Buoyancy, Buoyancy (Including effective 'g'), Laws of floatation,Force on a surface in contact with
the liquid (plane surface, curved surface),Basic Ideas of stable Equilibrium of floating Body,Problems in fluid
Statics
141 7-Sep-16 Wed
Fluid Statics: Definition of fluid, Ideal fluid, Density, Relative density (Specific gravity), Hydro static pressure
in a fluid, Variation of pressure with depth, Atmospheric pressure, Barometer, Mano meter, Vacuum pressure,
Gauge pressure, Absolute pressure,Free surface of a Fluid, Pascal's law, Hydraulic lift, Archimedes' Principle,
Principle of Buoyancy, Buoyancy (Including effective 'g'), Laws of floatation,Force on a surface in contact with
the liquid (plane surface, curved surface),Basic Ideas of stable Equilibrium of floating Body,Problems in fluid
Statics
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 18 of 48
142 8-Sep-16 Thu
Fluid Statics: Definition of fluid, Ideal fluid, Density, Relative density (Specific gravity), Hydro static pressure
in a fluid, Variation of pressure with depth, Atmospheric pressure, Barometer, Mano meter, Vacuum pressure,
Gauge pressure, Absolute pressure,Free surface of a Fluid, Pascal's law, Hydraulic lift, Archimedes' Principle,
Principle of Buoyancy, Buoyancy (Including effective 'g'), Laws of floatation,Force on a surface in contact with
the liquid (plane surface, curved surface),Basic Ideas of stable Equilibrium of floating Body,Problems in fluid
Statics
143 9-Sep-16 Fri
Fluid Statics: Definition of fluid, Ideal fluid, Density, Relative density (Specific gravity), Hydro static pressure
in a fluid, Variation of pressure with depth, Atmospheric pressure, Barometer, Mano meter, Vacuum pressure,
Gauge pressure, Absolute pressure,Free surface of a Fluid, Pascal's law, Hydraulic lift, Archimedes' Principle,
Principle of Buoyancy, Buoyancy (Including effective 'g'), Laws of floatation,Force on a surface in contact with
the liquid (plane surface, curved surface),Basic Ideas of stable Equilibrium of floating Body,Problems in fluid
Statics
144 10-Sep-16 Sat
145 11-Sep-16 Sun Sunday
Fluid Statics: Definition of fluid, Ideal fluid, Density, Relative density (Specific gravity), Hydro static pressure in a fluid, Variation of pressure with depth, Atmospheric pressure, Barometer, Mano meter, Vacuum pressure, Gauge pressure, Absolute pressure,Free surface of a Fluid, Pascal's law, Hydraulic lift, Archimedes' Principle, Principle of Buoyancy, Buoyancy (Including effective 'g'), Laws of floatation,Force
on a surface in contact with the liquid (plane surface, curved surface),Basic Ideas of stable Equilibrium of floating Body,Problems in fluid Statics (70%)Gravitational potential due to a point mass,gravitational potential due to distributed mass,conservation of
energy,Motion of satellites and planets in circular orbits,orbital velocity,escape velocity,geo-stationary satellites,kepler's laws of planetary motion,Gravitational Pressure and self energy (30%)
Fluid Statics: Definition of fluid, Ideal fluid, Density, Relative density (Specific gravity), Hydro static pressure in a fluid, Variation of pressure with depth, Atmospheric pressure, Barometer, Mano meter,
Vacuum pressure, Gauge pressure, Absolute pressure,Free surface of a Fluid, Pascal's law, Hydraulic lift,
Archimedes' Principle, Principle of Buoyancy, Buoyancy (Including effective 'g'), Laws of floatation,Force on a surface in contact with the liquid (plane surface, curved surface),Basic Ideas of stable Equilibrium of floating Body,Problems in fluid Statics (60%)
Gravitational potential due to a point mass,gravitational potential due to distributed mass,conservation of
energy,Motion of satellites and planets in circular orbits,orbital velocity,escape velocity,geo-stationary
satellites,kepler's laws of planetary motion,Gravitational Pressure and self energy (30%)Cummulative syllabus covered till now (10%)
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 19 of 48
SYLLABUS COVERED FROM 15-08-16 TO 10-09-16
146 12-Sep-16 Mon BAKRI ID
147 13-Sep-16 Tue
Fluid Dynamics:General Characteristics of liquid flow, types of Fluid flow (Stream line and turbulent flow).
Equation of Continuity. Bernoulli's theorem,Applications of Bernoulli's theorem: Velocity of efflux, horizontal range of the escaping liquid time of emptying of the vessel. Impact force of liquid,Venturimeter, sprayer (or) atomizer, narrowing water jet, siphon,Pitot tube, dynamic lift, thrust on a rocket, magnus effect,Problems in fluid
Dynamics
148 14-Sep-16 Wed
Fluid Dynamics:General Characteristics of liquid flow, types of Fluid flow (Stream line and turbulent flow). Equation of Continuity. Bernoulli's theorem,Applications of Bernoulli's theorem: Velocity of efflux, horizontal range of the escaping liquid time of emptying of the vessel. Impact force of liquid,Venturimeter, sprayer (or)
atomizer, narrowing water jet, siphon,Pitot tube, dynamic lift, thrust on a rocket, magnus effect,Problems in fluid
Dynamics
149 15-Sep-16 Thu
Fluid Dynamics:General Characteristics of liquid flow, types of Fluid flow (Stream line and turbulent flow). Equation of Continuity. Bernoulli's theorem,Applications of Bernoulli's theorem: Velocity of efflux, horizontal range of the escaping liquid time of emptying of the vessel. Impact force of liquid,Venturimeter, sprayer (or) atomizer, narrowing water jet, siphon,Pitot tube, dynamic lift, thrust on a rocket, magnus effect,Problems in fluid
Dynamics
150 16-Sep-16 Fri
Fluid Dynamics:General Characteristics of liquid flow, types of Fluid flow (Stream line and turbulent flow).
Equation of Continuity. Bernoulli's theorem,Applications of Bernoulli's theorem: Velocity of efflux, horizontal range of the escaping liquid time of emptying of the vessel. Impact force of liquid,Venturimeter, sprayer (or) atomizer, narrowing water jet, siphon,Pitot tube, dynamic lift, thrust on a rocket, magnus effect,Problems in fluid
Dynamics
151 17-Sep-16 Sat
152 18-Sep-16 Sun Sunday
MONDAY Exam Syllabus
For JEE-Advance (CT-5)
Page 20 of 48
Fluid Dynamics:General Characteristics of liquid flow, types of Fluid flow (Stream line and turbulent flow). Equation of Continuity. Bernoulli's theorem,Applications of Bernoulli's theorem: Velocity of efflux, horizontal range of the escaping liquid time of emptying of the vessel. Impact force of liquid,Venturimeter, sprayer (or) atomizer, narrowing water jet, siphon,Pitot tube,
dynamic lift, thrust on a rocket, magnus effect,Problems in fluid Dynamics(70%)Fluid Statics: Definition of fluid, Ideal fluid, Density, Relative density (Specific gravity), Hydro static pressure in a fluid, Variation of pressure with depth, Atmospheric pressure, Barometer, Mano meter, Vacuum pressure, Gauge pressure, Absolute pressure,Free surface of a Fluid, Pascal's law, Hydraulic lift, Archimedes' Principle, Principle of Buoyancy, Buoyancy (Including effective 'g'), Laws of floatation,Force on a surface in contact with the liquid (plane surface, curved surface),Basic Ideas of stable Equilibrium of floating Body,Problems in fluid Statics (30%)
Fluid Dynamics:General Characteristics of liquid flow, types of Fluid flow (Stream line and turbulent flow). Equation of Continuity. Bernoulli's theorem,Applications of Bernoulli's theorem: Velocity of efflux, horizontal range of the escaping liquid time of emptying of the vessel. Impact force of liquid,Venturimeter, sprayer (or) atomizer, narrowing water jet, siphon,Pitot tube,
dynamic lift, thrust on a rocket, magnus effect,Problems in fluid Dynamics(60%)Fluid Statics: Definition of fluid, Ideal fluid, Density, Relative density (Specific gravity), Hydro static pressure in a fluid, Variation of pressure with depth, Atmospheric pressure, Barometer, Mano meter, Vacuum pressure, Gauge pressure, Absolute pressure,Free surface of a Fluid, Pascal's law, Hydraulic lift, Archimedes' Principle, Principle of Buoyancy, Buoyancy (Including effective 'g'), Laws of floatation,Force on a surface in contact with the liquid (plane surface, curved surface),Basic Ideas of stable Equilibrium of floating Body,Problems in fluid Statics (30%)
Cummulative syllabus covered till now (10%)
153 19-Sep-16 MonProperties of matter:Elasticity: Elastic behaviour,stress-strain relationship,Hooke's Law,Young's modulus,bulk modulus, Elasticity experiment: Young's modulus of elastisity of the material of a metallic wire
154 20-Sep-16 TueProperties of matter:Elasticity: Elastic behaviour,stress-strain relationship,Hooke's Law,Young's modulus,bulk modulus, Elasticity experiment: Young's modulus of elastisity of the material of a metallic wire
155 21-Sep-16 WedProperties of matter:Elasticity: Elastic behaviour,stress-strain relationship,Hooke's Law,Young's modulus,bulk modulus, Elasticity experiment: Young's modulus of elastisity of the material of a metallic wire
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 21 of 48
156 22-Sep-16 ThuProperties of matter:Elasticity: Elastic behaviour,stress-strain relationship,Hooke's Law,Young's modulus,bulk modulus, Elasticity experiment: Young's modulus of elastisity of the material of a metallic wire
157 23-Sep-16 FriProperties of matter:Elasticity: Elastic behaviour,stress-strain relationship,Hooke's Law,Young's modulus,bulk modulus, Elasticity experiment: Young's modulus of elastisity of the material of a metallic wire
158 24-Sep-16 Sat
159 25-Sep-16 Sun Sunday
Properties of matter:Elasticity: Elastic behaviour,stress-strain relationship,Hooke's Law,Young's modulus,bulk modulus, Elasticity experiment: Young's modulus of elastisity of the material of a metallic wire, (70%)Fluid Dynamics:General Characteristics of liquid flow, types of Fluid flow (Stream line and turbulent flow). Equation of Continuity. Bernoulli's theorem,Applications of Bernoulli's theorem: Velocity of efflux, horizontal
range of the escaping liquid time of emptying of the vessel. Impact force of liquid,Venturimeter, sprayer (or) atomizer, narrowing water jet, siphon,Pitot tube, dynamic lift, thrust on a rocket, magnus effect,Problems in fluid Dynamics(30%)
Properties of matter:Elasticity: Elastic behaviour,stress-strain relationship,Hooke's Law,Young's modulus,bulk modulus, Elasticity experiment: Young's modulus of elastisity of the material of a metallic wire, (60%)Fluid Dynamics:General Characteristics of liquid flow, types of Fluid flow (Stream line and turbulent flow).
Equation of Continuity. Bernoulli's theorem,Applications of Bernoulli's theorem: Velocity of efflux, horizontal range of the escaping liquid time of emptying of the vessel. Impact force of liquid,Venturimeter, sprayer (or) atomizer, narrowing water jet, siphon,Pitot tube, dynamic lift, thrust on a rocket, magnus effect,Problems in fluid
Dynamics(30%)Cummulative syllabus covered till now (10%)
160 26-Sep-16 Mon
Surface tension: Definition of surface tension, Force required to lift objects from surface of liquids, Surface energy, relation between surface tension and surface energy,Capillarity, Angle of contact, rising of liquid in a
capillary tube, excess pressure inside a liquid drop, soap bubble
161 27-Sep-16 Tue
Surface tension: Definition of surface tension, Force required to lift objects from surface of liquids, Surface
energy, relation between surface tension and surface energy,Capillarity, Angle of contact, rising of liquid in a
capillary tube, excess pressure inside a liquid drop, soap bubble
162 28-Sep-16 Wed
Surface tension: Definition of surface tension, Force required to lift objects from surface of liquids, Surface energy, relation between surface tension and surface energy,Capillarity, Angle of contact, rising of liquid in a capillary tube, excess pressure inside a liquid drop, soap bubble
163 29-Sep-16 Thu
Surface tension: Definition of surface tension, Force required to lift objects from surface of liquids, Surface energy, relation between surface tension and surface energy,Capillarity, Angle of contact, rising of liquid in a capillary tube, excess pressure inside a liquid drop, soap bubble
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 22 of 48
164 30-Sep-16 Fri
Surface tension: Definition of surface tension, Force required to lift objects from surface of liquids, Surface energy, relation between surface tension and surface energy,Capillarity, Angle of contact, rising of liquid in a
capillary tube, excess pressure inside a liquid drop, soap bubble
165 1-Oct-16 Sat
166 2-Oct-16 Sun SundayDefinition of surface tension, Force required to lift objects from surface of liquids, Surface energy, relation between surface tension and surface energy,Capillarity, Angle of contact, rising of liquid in a capillary tube, excess pressure inside a liquid drop, soap bubble,Surface tension,Experiment: Surface tension of water by capillary rise and effect of detergents, (70%) Properties of matter:Elasticity: Elastic behaviour,stress-strain relationship,Hooke's Law,Young's modulus,bulk modulus, Elasticity experiment: Young's modulus of elastisity of the material of a metallic
wire, (30%)Definition of surface tension, Force required to lift objects from surface of liquids, Surface energy, relation between surface tension and surface energy,Capillarity, Angle of contact, rising of liquid in a capillary tube, excess pressure inside a liquid drop, soap bubble,Surface tension,Experiment: Surface tension of water by capillary rise and effect of detergents, (60%) Properties of matter:Elasticity: Elastic behaviour,stress-strain relationship,Hooke's Law,Young's modulus,bulk modulus, Elasticity experiment: Young's modulus of elastisity of the material of a metallic wire, (30%)
Cummulative syllabus covered till now (10%)
167 3-Oct-16 Mon
Viscosity: Viscus force between two layers,stoke's law terminal velocity, Reynolds number,Experiment: Co-efficient of viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body. Significant figures , Rounding off of numbers , errors Analysics , Precision, Accuracy, Vernier Callipers ,Screw gauge ,Error
Analysis involved in experiment of determination of g using Simple Pendulum
168 4-Oct-16 Tue
Viscosity: Viscus force between two layers,stoke's law terminal velocity, Reynolds number,Experiment: Co-efficient of viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body. Significant
figures , Rounding off of numbers , errors Analysics , Precision, Accuracy, Vernier Callipers ,Screw gauge ,Error Analysis involved in experiment of determination of g using Simple Pendulum
169 5-Oct-16 Wed
Viscosity: Viscus force between two layers,stoke's law terminal velocity, Reynolds number,Experiment: Co-
efficient of viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body. Significant figures , Rounding off of numbers , errors Analysics , Precision, Accuracy, Vernier Callipers ,Screw gauge ,Error Analysis involved in experiment of determination of g using Simple Pendulum
170 6-Oct-16 Thu
Viscosity: Viscus force between two layers,stoke's law terminal velocity, Reynolds number,Experiment: Co-efficient of viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body. Significant
figures , Rounding off of numbers , errors Analysics , Precision, Accuracy, Vernier Callipers ,Screw gauge ,Error Analysis involved in experiment of determination of g using Simple Pendulum
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 23 of 48
171 7-Oct-16 Fri
Viscosity: Viscus force between two layers,stoke's law terminal velocity, Reynolds number,Experiment: Co-efficient of viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body. Significant figures , Rounding off of numbers , errors Analysics , Precision, Accuracy, Vernier Callipers ,Screw gauge ,Error Analysis involved in experiment of determination of g using Simple Pendulum
172 8-Oct-16 Sat
Viscosity: Viscus force between two layers,stoke's law terminal velocity, Reynolds number,Experiment: Co-efficient of viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body. Significant figures , Rounding off of numbers , errors Analysics , Precision, Accuracy, Vernier Callipers ,Screw gauge ,Error Analysis involved in experiment of determination of g using Simple Pendulum (70%)
Definition of surface tension, Force required to lift objects from surface of liquids, Surface energy, relation between surface tension and surface energy,Capillarity, Angle of contact, rising of liquid in a capillary tube, excess pressure inside a liquid drop, soap bubble,Surface tension,Experiment: Surface tension of water by capillary rise and effect of detergents, (30%)
Viscosity: Viscus force between two layers,stoke's law terminal velocity, Reynolds number,Experiment: Co-efficient of viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body.
Significant figures , Rounding off of numbers , errors Analysics , Precision, Accuracy, Vernier Callipers ,Screw gauge ,Error Analysis involved in experiment of determination of g using Simple Pendulum (60%)Definition of surface tension, Force required to lift objects from surface of liquids, Surface energy, relation between surface tension and surface energy,Capillarity, Angle of contact, rising of liquid in a capillary tube, excess pressure inside a liquid drop, soap bubble,Surface tension,Experiment: Surface tension of water by capillary rise and effect of detergents, (30%)
Cummulative syllabus covered till now (10%)
SYLLABUS COVERED FROM 12-09-16 TO 07-10-16
173 9-Oct-16 Sun DUSSEHRA HOLIDAYS (AFTER THE EXAM 10.30 AM ONWARDS)
174 10-Oct-16 Mon DUSSEHRA HOLIDAYS
175 11-Oct-16 Tue DUSSEHRA HOLIDAYS
176 12-Oct-16 Wed MUHARRAM
177 13-Oct-16 Thu DUSSEHRA HOLIDAYS
178 14-Oct-16 Fri DUSSEHRA HOLIDAYS
Saturday Exam Syllabus
For JEE-Main
Saturday Exam Syllabus
For JEE-Advance
SUNDAY Exam Syllabus
For JEE-Advance (CT-6)
Page 24 of 48
179 15-Oct-16 Sat DUSSEHRA HOLIDAYS
180 16-Oct-16 Sun DUSSEHRA HOLIDAYS
181 17-Oct-16 MonKinematics and Energy of a general Simple Harmonic oscillator,Time period of spring-block system and related problems
182 18-Oct-16 TueKinematics and Energy of a general Simple Harmonic oscillator,Time period of spring-block system and related
problems
183 19-Oct-16 WedKinematics and Energy of a general Simple Harmonic oscillator,Time period of spring-block system and related problems
184 20-Oct-16 ThuKinematics and Energy of a general Simple Harmonic oscillator,Time period of spring-block system and related problems
185 21-Oct-16 FriKinematics and Energy of a general Simple Harmonic oscillator,Time period of spring-block system and related problems
186 22-Oct-16 Sat
187 23-Oct-16 Sun Sunday
Kinematics and Energy of a general Simple Harmonic oscillator,Time period of spring-block system and related problems(70%)Viscosity: Viscus force between two layers,stoke's law terminal velocity, Reynolds number,Experiment: Co-efficient of viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body. Significant figures , Rounding off of numbers , errors Analysics , Precision, Accuracy, Vernier Callipers ,Screw gauge ,Error
Analysis involved in experiment of determination of g using Simple Pendulum (30%)
Kinematics and Energy of a general Simple Harmonic oscillator,Time period of spring-block system and related problems(60%)Viscosity: Viscus force between two layers,stoke's law terminal velocity, Reynolds number,Experiment: Co-
efficient of viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body. Significant
figures , Rounding off of numbers , errors Analysics , Precision, Accuracy, Vernier Callipers ,Screw gauge ,Error Analysis involved in experiment of determination of g using Simple Pendulum (30%)
Simple pendulum, Physical pendulum, Cumulative problems in SHM (upto syllabus covered) (70%)Kinematics and Energy of a general Simple Harmonic oscillator,Time period of spring-block system and related problems(30%)
(60%)Kinematics and Energy of a general Simple Harmonic oscillator,Time period of spring-block system and related problems(30%)Cummulative syllabus covered till now (10%)
31-Oct-16 MonWaves: Introduction to wave motion,---classifications, Progressive plane waves and pulses--equation—characteristics,Progressive plane waves and pulses--equation—characteristics,Transverse waves on
196 1-Nov-16 Tue
Waves: Introduction to wave motion,---classifications, Progressive plane waves and pulses--
equation—characteristics,Progressive plane waves and pulses--equation—characteristics,Transverse waves on stretched strings -- velocity , power transmitted, Energy
197 2-Nov-16 Wed
Waves: Introduction to wave motion,---classifications, Progressive plane waves and pulses--equation—characteristics,Progressive plane waves and pulses--equation—characteristics,Transverse waves on stretched strings -- velocity , power transmitted, Energy
198 3-Nov-16 Thu
Waves: Introduction to wave motion,---classifications, Progressive plane waves and pulses--equation—characteristics,Progressive plane waves and pulses--equation—characteristics,Transverse waves on
stretched strings -- velocity , power transmitted, Energy
199 4-Nov-16 Fri
Waves: Introduction to wave motion,---classifications, Progressive plane waves and pulses--equation—characteristics,Progressive plane waves and pulses--equation—characteristics,Transverse waves on
stretched strings -- velocity , power transmitted, Energy
200 5-Nov-16 Sat
201 6-Nov-16 Sun Sunday
Waves: Introduction to wave motion,---classifications, Progressive plane waves and pulses--
equation—characteristics,Progressive plane waves and pulses--equation—characteristics,Transverse waves on stretched strings -- velocity , power transmitted, Energy (70%)Simple pendulum, Physical pendulum, Cumulative problems in SHM (upto syllabus covered) (30%)
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Main
Page 26 of 48
Waves: Introduction to wave motion,---classifications, Progressive plane waves and pulses--equation—characteristics,Progressive plane waves and pulses--equation—characteristics,Transverse waves on stretched strings -- velocity , power transmitted, Energy(60%)Simple pendulum, Physical pendulum, Cumulative problems in SHM (upto syllabus covered)
(30%)Cummulative syllabus covered till now (10%)
202 7-Nov-16 Mon
Superposition (Interference) of waves, Reflection and transmission of waves at a boundary,Standing waves & modes of
vibration of stretched strings,Sound waves (longitudinal waves) as pressure waves, displacement waves, velocity of
sound waves and echoes,Power, Intensity in sound waves
203 8-Nov-16 Tue
Superposition (Interference) of waves, Reflection and transmission of waves at a boundary,Standing waves & modes of
vibration of stretched strings,Sound waves (longitudinal waves) as pressure waves, displacement waves, velocity of
sound waves and echoes,Power, Intensity in sound waves
204 9-Nov-16 Wed
Superposition (Interference) of waves, Reflection and transmission of waves at a boundary,Standing waves & modes of
vibration of stretched strings,Sound waves (longitudinal waves) as pressure waves, displacement waves, velocity of
sound waves and echoes,Power, Intensity in sound waves
205 10-Nov-16 Thu
Superposition (Interference) of waves, Reflection and transmission of waves at a boundary,Standing waves & modes of
vibration of stretched strings,Sound waves (longitudinal waves) as pressure waves, displacement waves, velocity of
sound waves and echoes,Power, Intensity in sound waves
206 11-Nov-16 Fri
Superposition (Interference) of waves, Reflection and transmission of waves at a boundary,Standing waves & modes of
vibration of stretched strings,Sound waves (longitudinal waves) as pressure waves, displacement waves, velocity of
sound waves and echoes,Power, Intensity in sound waves
207 12-Nov-16 Sat
208 13-Nov-16 Sun Sunday
Superposition (Interference) of waves, Reflection and transmission of waves at a
boundary,Standing waves & modes of vibration of stretched strings,Sound waves (longitudinal waves) as pressure waves, displacement waves, velocity of sound waves and echoes,Power, Intensity in sound waves (70%)Waves: Introduction to wave motion,---classifications, Progressive plane waves and pulses--equation—characteristics,Progressive plane waves and pulses--equation—characteristics,Transverse waves on stretched strings -- velocity , power transmitted, Energy(30%)
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Main
Page 27 of 48
Superposition (Interference) of waves, Reflection and transmission of waves at a boundary,Standing waves & modes of vibration of stretched strings,Sound waves (longitudinal waves) as pressure waves, displacement waves, velocity of sound waves and echoes,Power, Intensity in sound waves(60%)Waves: Introduction to wave motion,---classifications, Progressive plane waves and pulses--
equation—characteristics,Progressive plane waves and pulses--equation—characteristics,Transverse waves on stretched strings -- velocity , power transmitted, Energy(30%)Cummulative syllabus covered till now (10%)
SYLLABUS COVERED FROM 17-10-16 TO 12-11-16
209 14-Nov-16 MonInterference of sound waves,Organ pipes,Organ pipes,Experiment: Speed of sound in air at room temperature using a
resonance tube,Beats,Doppler effect in sound
210 15-Nov-16 TueInterference of sound waves,Organ pipes,Organ pipes,Experiment: Speed of sound in air at room temperature using a
resonance tube,Beats,Doppler effect in sound
211 16-Nov-16 WedInterference of sound waves,Organ pipes,Organ pipes,Experiment: Speed of sound in air at room temperature using a
resonance tube,Beats,Doppler effect in sound
212 17-Nov-16 ThuInterference of sound waves,Organ pipes,Organ pipes,Experiment: Speed of sound in air at room temperature using a
resonance tube,Beats,Doppler effect in sound
213 18-Nov-16 FriInterference of sound waves,Organ pipes,Organ pipes,Experiment: Speed of sound in air at room temperature using a
resonance tube,Beats,Doppler effect in sound
214 19-Nov-16 Sat
215 20-Nov-16 Sun Sunday
Interference of sound waves,Organ pipes,Organ pipes,Experiment: Speed of sound in air at room temperature using a resonance tube,Beats,Doppler effect in sound (70%)
Superposition (Interference) of waves, Reflection and transmission of waves at a boundary,Standing waves & modes of vibration of stretched strings,Sound waves (longitudinal waves) as pressure waves, displacement waves, velocity of sound waves and echoes,Power, Intensity in sound waves(30%)
Interference of sound waves,Organ pipes,Organ pipes,Experiment: Speed of sound in air at room temperature using a resonance tube,Beats,Doppler effect in sound(60%)
Superposition (Interference) of waves, Reflection and transmission of waves at a boundary,Standing waves & modes of vibration of stretched strings,Sound waves (longitudinal waves) as pressure waves, displacement waves, velocity of sound waves and echoes,Power, Intensity in sound waves(30%)Cummulative syllabus covered till now (10%)
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Advance
MONDAY Exam Syllabus
For JEE-Advance (CT-7)
Page 28 of 48
216 21-Nov-16 MonDoppler effect in sound, Heat & thermodynamics: Heat, temperature, scales of measurement of temperature and relation
among them, Calorimetry
217 22-Nov-16 TueDoppler effect in sound, Heat & thermodynamics: Heat, temperature, scales of measurement of temperature and relation
among them, Calorimetry
218 23-Nov-16 WedDoppler effect in sound, Heat & thermodynamics: Heat, temperature, scales of measurement of temperature and relation
among them, Calorimetry
219 24-Nov-16 ThuDoppler effect in sound, Heat & thermodynamics: Heat, temperature, scales of measurement of temperature and relation
among them, Calorimetry
220 25-Nov-16 FriDoppler effect in sound, Heat & thermodynamics: Heat, temperature, scales of measurement of temperature and relation
among them, Calorimetry
221 26-Nov-16 Sat
222 27-Nov-16 Sun Sunday
Doppler effect in sound, Heat & thermodynamics: Heat, temperature, scales of measurement of temperature and relation among them, Calorimetry (70%)Interference of sound waves,Organ pipes,Organ pipes,Experiment: Speed of sound in air at room temperature using a resonance tube,Beats,Doppler effect in sound(30%)
Doppler effect in sound, Heat & thermodynamics: Heat, temperature, scales of measurement of temperature and relation among them, Calorimetry (60%)
Interference of sound waves,Organ pipes,Organ pipes,Experiment: Speed of sound in air at room temperature using a resonance tube,Beats,Doppler effect in sound(30%)Cummulative syllabus covered till now (10%)
223 28-Nov-16 MonThermal expansion of solids and liquids, Kinetic theory of gases, Kinetic theory of gases (EXCLUDING First law of
Thermodynamics)
224 29-Nov-16 TueThermal expansion of solids and liquids, Kinetic theory of gases, Kinetic theory of gases (EXCLUDING First law of
Thermodynamics)
225 30-Nov-16 WedThermal expansion of solids and liquids, Kinetic theory of gases, Kinetic theory of gases (EXCLUDING First law of
Thermodynamics)
226 1-Dec-16 ThuThermal expansion of solids and liquids, Kinetic theory of gases, Kinetic theory of gases (EXCLUDING First law of
Thermodynamics)
227 2-Dec-16 FriThermal expansion of solids and liquids, Kinetic theory of gases, Kinetic theory of gases (EXCLUDING First law of
Thermodynamics)
228 3-Dec-16 Sat
229 4-Dec-16 Sun Sunday
Thermal expansion of solids and liquids, Kinetic theory of gases, Kinetic theory of gases (EXCLUDING First law of Thermodynamics) (70%)Doppler effect in sound, Heat & thermodynamics: Heat, temperature, scales of measurement of temperature and relation among them, Calorimetry (30%)
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Main
Page 29 of 48
Thermal expansion of solids and liquids, Kinetic theory of gases, Kinetic theory of gases (EXCLUDING First law of Thermodynamics) (60%)Doppler effect in sound, Heat & thermodynamics: Heat, temperature, scales of measurement of temperature and relation among them, Calorimetry (30%)Cummulative syllabus covered till now (10%)
230 5-Dec-16 Mon First law of thermodynamics and specific heat capacities of gases
231 6-Dec-16 Tue First law of thermodynamics and specific heat capacities of gases
232 7-Dec-16 Wed First law of thermodynamics and specific heat capacities of gases
233 8-Dec-16 Thu First law of thermodynamics and specific heat capacities of gases
234 9-Dec-16 Fri First law of thermodynamics and specific heat capacities of gases
235 10-Dec-16 Sat
236 11-Dec-16 Sun Sunday
First law of thermodynamics and specific heat capacities of gases (70%)Thermal expansion of solids and liquids, Kinetic theory of gases, Kinetic theory of gases (EXCLUDING First law of Thermodynamics) (30%)
First law of thermodynamics and specific heat capacities of gases (60%)Thermal expansion of solids and liquids, Kinetic theory of gases, Kinetic theory of gases (EXCLUDING First law of Thermodynamics) (30%)
Cummulative syllabus covered till now (10%)
SYLLABUS COVERED FROM 14-11-16 TO 10-12-16
237 12-Dec-16 Mon Heat Transfer : Heat Transfer
238 13-Dec-16 Tue Heat Transfer : Heat Transfer
239 14-Dec-16 Wed Heat Transfer : Heat Transfer
240 15-Dec-16 Thu Heat Transfer : Heat Transfer
241 16-Dec-16 Fri Heat Transfer : Heat Transfer
242 17-Dec-16 Sat
243 18-Dec-16 Sun Sunday
Heat Transfer : Heat Transfer (70%)First law of thermodynamics and specific heat capacities of gases (30%)
Heat Transfer : Heat Transfer (60%)First law of thermodynamics and specific heat capacities of gases (30%)Cummulative syllabus covered till now (10%)
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Advance
MONDAY Exam Syllabus
For JEE-Advance (CT-8)
Page 30 of 48
19-Dec-16 Mon Complete reflection
245 20-Dec-16 Tue Complete reflection
246 21-Dec-16 Wed Complete reflection
247 22-Dec-16 Thu Complete reflection
248 23-Dec-16 Fri Complete reflection
249 24-Dec-16 Sat
250 25-Dec-16 Sun Sunday(CHRISTMAS)
Complete reflection (70%)
Heat Transfer : Heat Transfer (30%)
Complete reflection (60%)
Heat Transfer : Heat Transfer (30%)
Cummulative syllabus covered till now (10%)
26-Dec-16 MonRefraction at plane surface, TIR and Prism, Refraction at curved surface
252 27-Dec-16 TueRefraction at plane surface, TIR and Prism, Refraction at curved surface
253 28-Dec-16 WedRefraction at plane surface, TIR and Prism, Refraction at curved surface
254 29-Dec-16 ThuRefraction at plane surface, TIR and Prism, Refraction at curved surface
255 30-Dec-16 FriRefraction at plane surface, TIR and Prism, Refraction at curved surface
256 31-Dec-16 Sat
257 1-Jan-17 Sun Sunday (NEW YEAR)
Refraction at plane surface, TIR and Prism,
Refraction at curved surface (70%)
Complete reflection (30%)
Refraction at plane surface, TIR and Prism,
Refraction at curved surface (60%)
Complete reflection (30%)
Cummulative syllabus covered till now (10%)
258 2-Jan-17 MonLenses & Combination of lens, Wave optics: Wave nature of light- wave fronts - Huygens principle
(Application to reflection, refraction), Young’s double slit experiment and variations of standard YDSE
259 3-Jan-17 TueLenses & Combination of lens, Wave optics: Wave nature of light- wave fronts - Huygens principle
(Application to reflection, refraction), Young’s double slit experiment and variations of standard YDSE
Sunday Exam Syllabus
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Sunday Exam Syllabus
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Sunday Exam Syllabus
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Sunday Exam Syllabus
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Page 31 of 48
260 4-Jan-17 WedLenses & Combination of lens, Wave optics: Wave nature of light- wave fronts - Huygens principle
(Application to reflection, refraction), Young’s double slit experiment and variations of standard YDSE
261 5-Jan-17 ThuLenses & Combination of lens, Wave optics: Wave nature of light- wave fronts - Huygens principle
(Application to reflection, refraction), Young’s double slit experiment and variations of standard YDSE
262 6-Jan-17 FriLenses & Combination of lens, Wave optics: Wave nature of light- wave fronts - Huygens principle
(Application to reflection, refraction), Young’s double slit experiment and variations of standard YDSE
263 7-Jan-17 Sat
264 8-Jan-17 Sun Sunday
Lenses & Combination of lens, Wave optics: Wave nature of light- wave fronts - Huygens principle (Application to reflection, refraction), Young’s double slit experiment and variations of standard YDSE (70%)Refraction at plane surface, TIR and Prism,
Refraction at curved surface (30%)
Lenses & Combination of lens, Wave optics: Wave nature of light- wave fronts - Huygens principle (Application to reflection, refraction), Young’s double slit experiment and variations of standard YDSE (60%)Refraction at plane surface, TIR and Prism, Refraction at curved surface (30%)
Cummulative syllabus covered till now (10%)
SYLLABUS COVERED FROM 12-12-16 TO 07-01-17
265 9-Jan-17 Mon PONGAL HOLIDAYS (AFTER THE EXAM 10.30 AM ONWARDS)
266 10-Jan-17 Tue PONGAL HOLIDAYS
267 11-Jan-17 Wed PONGAL HOLIDAYS
268 12-Jan-17 Thu PONGAL HOLIDAYS
269 13-Jan-17 Fri PONGAL HOLIDAYS
270 14-Jan-17 Sat PONGAL HOLIDAYS271 15-Jan-17 Sun PONGAL HOLIDAYS272 16-Jan-17 Mon PONGAL HOLIDAYS
273 17-Jan-17 TueELECTROSTATICS ; Coulombs Law, Electric Field due to point charge and distributed charge, Electric Field due to point charge and distributed charge
274 18-Jan-17 WedELECTROSTATICS ; Coulombs Law, Electric Field due to point charge and distributed charge, Electric Field due to point charge and distributed charge
275 19-Jan-17 ThuELECTROSTATICS ; Coulombs Law, Electric Field due to point charge and distributed charge, Electric Field due to point charge and distributed charge
Sunday Exam Syllabus
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MONDAY Exam Syllabus
For JEE-Advance (CT-9)
Sunday Exam Syllabus
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Page 32 of 48
276 20-Jan-17 FriELECTROSTATICS ; Coulombs Law, Electric Field due to point charge and distributed charge, Electric Field due to point charge and distributed charge
277 21-Jan-17 Sat
278 22-Jan-17 Sun Sunday
ELECTROSTATICS ; Coulombs Law, Electric Field due to point charge and distributed charge,
Electric Field due to point charge and distributed charge (70%)Lenses & Combination of lens, Wave optics: Wave nature of light- wave fronts - Huygens principle (Application to reflection, refraction), Young’s double slit experiment and variations of standard YDSE (30%)
ELECTROSTATICS ; Coulombs Law, Electric Field due to point charge and distributed charge, Electric Field due to point charge and distributed charge (60%)Lenses & Combination of lens, Wave optics: Wave nature of light- wave fronts - Huygens principle
(Application to reflection, refraction), Young’s double slit experiment and variations of standard YDSE (30%)Cummulative syllabus covered till now (10%)
279 23-Jan-17 MonElectic potential energy, petential relation between field and potential, conservation of energy and potential due to various continuous charge distributions, complete electric dipole
280 24-Jan-17 TueElectic potential energy, petential relation between field and potential, conservation of energy and potential due to various continuous charge distributions, complete electric dipole
281 25-Jan-17 WedElectic potential energy, petential relation between field and potential, conservation of energy and potential due to various continuous charge distributions, complete electric dipole
282 26-Jan-17 ThuElectic potential energy, petential relation between field and potential, conservation of energy and potential due to various continuous charge distributions, complete electric dipole
283 27-Jan-17 FriElectic potential energy, petential relation between field and potential, conservation of energy and potential due
to various continuous charge distributions, complete electric dipole
284 28-Jan-17 Sat
285 29-Jan-17 Sun Sunday
Electic potential energy, petential relation between field and potential, conservation of energy and potential due to various continuous charge distributions, complete electric dipole (70%)ELECTROSTATICS ; Coulombs Law, Electric Field due to point charge and distributed charge, Electric Field due to point charge and distributed charge (30%)
Sunday Exam Syllabus
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Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 33 of 48
Electic potential energy, petential relation between field and potential, conservation of energy and potential due to various continuous charge distributions, complete electric dipole (60%)ELECTROSTATICS ; Coulombs Law, Electric Field due to point charge and distributed charge, Electric Field due to point charge and distributed charge (30%)
Cumulative syllabus (10%)
286 30-Jan-17 MonElectric flux, Gauss Law,Properties of conductors,Conducting spheres induced charges & Energy density & Electrostatic pressure,self energy of spherically charge distributed bodies
287 31-Jan-17 TueElectric flux, Gauss Law,Properties of conductors,Conducting spheres induced charges & Energy density & Electrostatic pressure,self energy of spherically charge distributed bodies
288 1-Feb-17 WedElectric flux, Gauss Law,Properties of conductors,Conducting spheres induced charges & Energy density & Electrostatic pressure,self energy of spherically charge distributed bodies
289 2-Feb-17 ThuElectric flux, Gauss Law,Properties of conductors,Conducting spheres induced charges & Energy density & Electrostatic pressure,self energy of spherically charge distributed bodies
290 3-Feb-17 FriElectric flux, Gauss Law,Properties of conductors,Conducting spheres induced charges & Energy density & Electrostatic pressure,self energy of spherically charge distributed bodies
291 4-Feb-17 Sat
292 5-Feb-17 Sun Sunday
Electric flux, Gauss Law,Properties of conductors,Conducting spheres induced charges & Energy density & Electrostatic pressure,self energy of spherically charge distributed bodies (70%)Electic potential energy, petential relation between field and potential, conservation of energy and potential due to various continuous charge distributions, complete electric dipole (30%)
Electric flux, Gauss Law,Properties of conductors,Conducting spheres induced charges & Energy
density & Electrostatic pressure,self energy of spherically charge distributed bodies (60%)Electic potential energy, petential relation between field and potential, conservation of energy and potential due to various continuous charge distributions, complete electric dipole (30%)Cummulative syllabus covered till now (10%)
293 6-Feb-17 Mon
Second law of thermodynamics , concept of entropy, heat engines and refrigerator, Exp-4:- Metre scale - mass of a given
object by principle of moment
Exp-6:- Surface tension of water by capillary rise and effect of detergents, Exp-7:- Co-efficient of Viscosity of a given
viscous liquid by measuring terminal velocity of a given spherical body
Exp-8:- Ploting a cooling curve for the relationship between the temperature of a hot body and time
Sunday Exam Syllabus
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Sunday Exam Syllabus
For JEE-Main
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For JEE-Advance
Page 34 of 48
294 7-Feb-17 Tue
Second law of thermodynamics , concept of entropy, heat engines and refrigerator, Exp-4:- Metre scale - mass of a given
object by principle of moment
Exp-6:- Surface tension of water by capillary rise and effect of detergents, Exp-7:- Co-efficient of Viscosity of a given
viscous liquid by measuring terminal velocity of a given spherical body
Exp-8:- Ploting a cooling curve for the relationship between the temperature of a hot body and time
295 8-Feb-17 Wed
Second law of thermodynamics , concept of entropy, heat engines and refrigerator, Exp-4:- Metre scale - mass of a given
object by principle of moment
Exp-6:- Surface tension of water by capillary rise and effect of detergents, Exp-7:- Co-efficient of Viscosity of a given
viscous liquid by measuring terminal velocity of a given spherical body
Exp-8:- Ploting a cooling curve for the relationship between the temperature of a hot body and time
296 9-Feb-17 Thu
Second law of thermodynamics , concept of entropy, heat engines and refrigerator, Exp-4:- Metre scale - mass of a given
object by principle of moment
Exp-6:- Surface tension of water by capillary rise and effect of detergents, Exp-7:- Co-efficient of Viscosity of a given
viscous liquid by measuring terminal velocity of a given spherical body
Exp-8:- Ploting a cooling curve for the relationship between the temperature of a hot body and time
297 10-Feb-17 Fri
Second law of thermodynamics , concept of entropy, heat engines and refrigerator, Exp-4:- Metre scale - mass of a given
object by principle of moment
Exp-6:- Surface tension of water by capillary rise and effect of detergents, Exp-7:- Co-efficient of Viscosity of a given
viscous liquid by measuring terminal velocity of a given spherical body
Exp-8:- Ploting a cooling curve for the relationship between the temperature of a hot body and time
298 11-Feb-17 Sat
299 12-Feb-17 Sun
Second law of thermodynamics , concept of entropy, heat engines and refrigerator, Exp-4:- Metre scale - mass of a given object by principle of momentExp-6:- Surface tension of water by capillary rise and effect of detergents, Exp-7:- Co-efficient of
Viscosity of a given viscous liquid by measuring terminal velocity of a given spherical bodyExp-8:- Ploting a cooling curve for the relationship between the temperature of a hot body and time (70%)Electric flux, Gauss Law,Properties of conductors,Conducting spheres induced charges & Energy density & Electrostatic pressure,self energy of spherically charge distributed bodies (30%)
Sunday Exam Syllabus
For JEE-Main
Page 35 of 48
Second law of thermodynamics , concept of entropy, heat engines and refrigerator, Exp-4:- Metre scale - mass of a given object by principle of momentExp-6:- Surface tension of water by capillary rise and effect of detergents, Exp-7:- Co-efficient of Viscosity of a given viscous liquid by measuring terminal velocity of a given spherical body
Exp-8:- Ploting a cooling curve for the relationship between the temperature of a hot body and time (60%)Electric flux, Gauss Law,Properties of conductors,Conducting spheres induced charges & Energy density & Electrostatic pressure,self energy of spherically charge distributed bodies (30%)Cumulative syllabus (10%)
SYLLABUS COVERED FROM 17-01-17 TO 10-02-17
300 13-Feb-17 Mon IPE PREPARATION
301 14-Feb-17 Tue IPE PREPARATION
302 15-Feb-17 Wed IPE PREPARATION
303 16-Feb-17 Thu IPE PREPARATION
304 17-Feb-17 Fri IPE PREPARATION
305 18-Feb-17 Sat IPE PREPARATION
306 19-Feb-17 Sun IPE PREPARATION
307 20-Feb-17 Mon IPE PREPARATION
308 21-Feb-17 Tue IPE PREPARATION
309 22-Feb-17 Wed IPE PREPARATION
310 23-Feb-17 Thu IPE PREPARATION
311 24-Feb-17 Fri IPE PREPARATION
312 25-Feb-17 Sat MAHA SHIVARATRI
313 26-Feb-17 Sun IPE PREPARATION
314 27-Feb-17 Mon IPE PREPARATION
315 28-Feb-17 Tue IPE PREPARATION
316 1-Mar-17 Wed IPE PREPARATION
317 2-Mar-17 Thu IPE PREPARATION
318 3-Mar-17 Fri IPE PREPARATION
319 4-Mar-17 Sat IPE PREPARATION
320 5-Mar-17 Sun IPE PREPARATION
Sunday Exam Syllabus
For JEE-Advance
MONDAY Exam Syllabus
For JEE-Advance (CT-10)
Page 36 of 48
321 6-Mar-17 Mon IPE PREPARATION
322 7-Mar-17 Tue IPE PREPARATION
323 8-Mar-17 Wed IPE PREPARATION
324 9-Mar-17 Thu IPE PREPARATION
325 10-Mar-17 Fri IPE PREPARATION
326 11-Mar-17 Sat IPE PREPARATION
327 12-Mar-17 Sun Sunday
328 13-Mar-17 Mon HOLI
329 14-Mar-17 Tue IPE PREPARATION
330 15-Mar-17 Wed IPE PREPARATION
331 16-Mar-17 Thu IPE PREPARATION
332 17-Mar-17 Fri IPE PREPARATION
333 18-Mar-17 Sat IPE PREPARATION
334 19-Mar-17 Sun Sunday
335 20-Mar-17 Mon IPE PREPARATION
336 21-Mar-17 Tue IPE PREPARATION
337 22-Mar-17 Wed IPE PREPARATION
338 23-Mar-17 Thu IPE PREPARATION
339 24-Mar-17 Fri IPE PREPARATION
340 25-Mar-17 Sat IPE PREPARATION
341 26-Mar-17 Sun Sunday
342 27-Mar-17 Mon
Current Electricity: Electric current density drift velocity mobility, Ohm's law ohmic non-ohmic
conductors, resistance, resistivity and conductivity, series and parallel combination of resistors, Temperature dependence of resistance & resistivity, Internal resistance of a cell, emf and terminal potential difference combination of resistors in series, parallel, Heating effect of current (fuse, bulb etc..) EXCLUDING circuit problems for finding equivalent resistance
343 28-Mar-17 Tue
Current Electricity: Electric current density drift velocity mobility, Ohm's law ohmic non-ohmic conductors, resistance, resistivity and conductivity, series and parallel combination of resistors,
Temperature dependence of resistance & resistivity, Internal resistance of a cell, emf and terminal potential difference combination of resistors in series, parallel, Heating effect of current (fuse, bulb etc..) EXCLUDING circuit problems for finding equivalent resistance
Page 37 of 48
344 29-Mar-17 Wed
Current Electricity: Electric current density drift velocity mobility, Ohm's law ohmic non-ohmic conductors, resistance, resistivity and conductivity, series and parallel combination of resistors, Temperature dependence of resistance & resistivity, Internal resistance of a cell, emf and terminal potential difference combination of resistors in series, parallel, Heating effect of current (fuse, bulb etc..)
EXCLUDING circuit problems for finding equivalent resistance
345 30-Mar-17 Thu
Current Electricity: Electric current density drift velocity mobility, Ohm's law ohmic non-ohmic conductors, resistance, resistivity and conductivity, series and parallel combination of resistors, Temperature dependence of resistance & resistivity, Internal resistance of a cell, emf and terminal potential difference combination of resistors in series, parallel, Heating effect of current (fuse, bulb etc..) EXCLUDING circuit problems for finding equivalent resistance
346 31-Mar-17 Fri
Current Electricity: Electric current density drift velocity mobility, Ohm's law ohmic non-ohmic conductors, resistance, resistivity and conductivity, series and parallel combination of resistors, Temperature dependence of resistance & resistivity, Internal resistance of a cell, emf and terminal potential difference combination of resistors in series, parallel, Heating effect of current (fuse, bulb etc..) EXCLUDING circuit problems for finding equivalent resistance
347 1-Apr-17 Sat
348 2-Apr-17 Sun Sunday
Current Electricity: Electric current density drift velocity mobility, Ohm's law ohmic non-ohmic conductors, resistance, resistivity and conductivity, series and parallel combination of resistors, Temperature dependence of resistance & resistivity, Internal resistance of a cell, emf and terminal potential difference combination of resistors in series, parallel, Heating effect of current
Current Electricity: Electric current density drift velocity mobility, Ohm's law ohmic non-ohmic conductors, resistance, resistivity and conductivity, series and parallel combination of resistors, Temperature dependence of resistance & resistivity, Internal resistance of a cell, emf and terminal potential difference combination of resistors in series, parallel, Heating effect of current
349 3-Apr-17 MonKirchoff's laws & Circuit problems, Wheatstone bridge, Conversion of galvanometer into ammeter and voltmeter
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 38 of 48
350 4-Apr-17 Tue UGADI
351 5-Apr-17 WedKirchoff's laws & Circuit problems, Wheatstone bridge, Conversion of galvanometer into ammeter and voltmeter
352 6-Apr-17 ThuKirchoff's laws & Circuit problems, Wheatstone bridge, Conversion of galvanometer into ammeter and voltmeter
353 7-Apr-17 FriKirchoff's laws & Circuit problems, Wheatstone bridge, Conversion of galvanometer into ammeter and voltmeter
354 8-Apr-17 Sat
355 9-Apr-17 Sun Sunday
Kirchoff's laws & Circuit problems, Wheatstone bridge, Conversion of galvanometer into ammeter and voltmeter (70%)
Current Electricity: Electric current density drift velocity mobility, Ohm's law ohmic non-ohmic conductors, resistance, resistivity and conductivity, series and parallel combination of resistors, Temperature dependence of resistance & resistivity, Internal resistance of a cell, emf and terminal potential difference combination of resistors in series, parallel, Heating effect of current (fuse, bulb etc..) EXCLUDING circuit problems for finding equivalent resistance (30%)
Kirchoff's laws & Circuit problems, Wheatstone bridge, Conversion of galvanometer into
ammeter and voltmeter (60%)Current Electricity: Electric current density drift velocity mobility, Ohm's law ohmic non-ohmic conductors, resistance, resistivity and conductivity, series and parallel combination of resistors, Temperature dependence of resistance & resistivity, Internal resistance of a cell, emf and terminal potential difference combination of resistors in series, parallel, Heating effect of current (fuse, bulb etc..) EXCLUDING circuit problems for finding equivalent resistance (30%)
Cumulative syllabus (10%)
356 10-Apr-17 Mon
CAPACITORS: Introduction, types of capacitors, combination of capacitors in series and in parallel, general capacitor circles without involvement of dielectric, Energy stored in a capacitor (without dielectric), charge flown and heat generated problems when switch is thrown from one position to other (without involvement of dielectric)
357 11-Apr-17 Tue
CAPACITORS: Introduction, types of capacitors, combination of capacitors in series and in parallel, general
capacitor circles without involvement of dielectric, Energy stored in a capacitor (without dielectric), charge flown
and heat generated problems when switch is thrown from one position to other (without involvement of
dielectric)
358 12-Apr-17 Wed SRI RAMANAVAMI
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
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Page 39 of 48
359 13-Apr-17 Thu
CAPACITORS: Introduction, types of capacitors, combination of capacitors in series and in parallel, general capacitor circles without involvement of dielectric, Energy stored in a capacitor (without dielectric), charge flown and heat generated problems when switch is thrown from one position to other (without involvement of dielectric)
360 14-Apr-17 Fri
CAPACITORS: Introduction, types of capacitors, combination of capacitors in series and in parallel, general
capacitor circles without involvement of dielectric, Energy stored in a capacitor (without dielectric), charge flown and heat generated problems when switch is thrown from one position to other (without involvement of dielectric)
361 15-Apr-17 Sat
362 16-Apr-17 Sun Sunday
CAPACITORS: Introduction, types of capacitors, combination of capacitors in series and in parallel, general capacitor circles without involvement of dielectric, Energy stored in a capacitor
(without dielectric), charge flown and heat generated problems when switch is thrown from one position to other (without involvement of dielectric) (70%)Kirchoff's laws & Circuit problems, Wheatstone bridge, Conversion of galvanometer into ammeter and voltmeter (30%)
CAPACITORS: Introduction, types of capacitors, combination of capacitors in series and in
parallel, general capacitor circles without involvement of dielectric, Energy stored in a capacitor (without dielectric), charge flown and heat generated problems when switch is thrown from one position to other (without involvement of dielectric) (60%)Kirchoff's laws & Circuit problems, Wheatstone bridge, Conversion of galvanometer into ammeter and voltmeter (30%)Cummulative syllabus covered till now (10%)
363 17-Apr-17 Mon
Introduction to dielectrics, discussion on effect of dielectric when introduced in to a capacitor (isolated or in a circuit). Energy related and switching problems of capacitors involving dielectrics, Introduction to RC - circuits: basic charging circuite with a single cell, a resistor and a capacitor in a single loop, basic discharging circuit with a single charged capacitor and a single resistor in a single loop
364 18-Apr-17 Tue
Introduction to dielectrics, discussion on effect of dielectric when introduced in to a capacitor (isolated
or in a circuit). Energy related and switching problems of capacitors involving dielectrics, Introduction to RC - circuits: basic charging circuite with a single cell, a resistor and a capacitor in a single loop, basic discharging circuit with a single charged capacitor and a single resistor in a single loop
Sunday Exam Syllabus
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Sunday Exam Syllabus
For JEE-Advance
Page 40 of 48
365 19-Apr-17 Wed
Introduction to dielectrics, discussion on effect of dielectric when introduced in to a capacitor (isolated or in a circuit). Energy related and switching problems of capacitors involving dielectrics, Introduction to RC - circuits: basic charging circuite with a single cell, a resistor and a capacitor in a single loop, basic discharging circuit with a single charged capacitor and a single resistor in a single loop
366 20-Apr-17 Thu
Introduction to dielectrics, discussion on effect of dielectric when introduced in to a capacitor (isolated or in a circuit). Energy related and switching problems of capacitors involving dielectrics, Introduction to RC - circuits: basic charging circuite with a single cell, a resistor and a capacitor in a single loop, basic discharging circuit with a single charged capacitor and a single resistor in a single loop
367 21-Apr-17 Fri GOOD FRIDAY
368 22-Apr-17 Sat
369 23-Apr-17 Sun Sunday
Introduction to dielectrics, discussion on effect of dielectric when introduced in to a capacitor (isolated or in a circuit). Energy related and switching problems of capacitors involving dielectrics, Introduction to RC - circuits: basic charging circuite with a single cell, a resistor and a capacitor in a single loop, basic discharging circuit with a single charged capacitor and a single
resistor in a single loop (70%)CAPACITORS: Introduction, types of capacitors, combination of capacitors in series and in parallel, general capacitor circles without involvement of dielectric, Energy stored in a capacitor (without dielectric), charge flown and heat generated problems when switch is thrown from one position to other (without involvement of dielectric) (30%)
Introduction to dielectrics, discussion on effect of dielectric when introduced in to a capacitor (isolated or in a circuit). Energy related and switching problems of capacitors involving dielectrics, Introduction to RC - circuits: basic charging circuite with a single cell, a resistor and a capacitor in a single loop, basic discharging circuit with a single charged capacitor and a single resistor in a single loop (60%)CAPACITORS: Introduction, types of capacitors, combination of capacitors in series and in parallel, general capacitor circles without involvement of dielectric, Energy stored in a capacitor
(without dielectric), charge flown and heat generated problems when switch is thrown from one
position to other (without involvement of dielectric) (30%)Cummulative syllabus covered till now (10%)
Sunday Exam Syllabus
For JEE-Advance
Sunday Exam Syllabus
For JEE-Main
Page 41 of 48
370 24-Apr-17 Mon
General RC-circuits, Meter bridge, Applications,Experiments:Resistivity of the material of a given wire using metre bridge,Resistance of a given wire using Ohm's Law,Potentiometer-1.Comparision of emf of two primary cells.2. determination of internal resistance of a cell
371 25-Apr-17 Tue
General RC-circuits, Meter bridge, Applications,Experiments:Resistivity of the material of a given wire using metre bridge,Resistance of a given wire using Ohm's Law,Potentiometer-1.Comparision of emf of
two primary cells.2. determination of internal resistance of a cell
372 26-Apr-17 Wed
General RC-circuits, Meter bridge, Applications,Experiments:Resistivity of the material of a given wire using metre bridge,Resistance of a given wire using Ohm's Law,Potentiometer-1.Comparision of emf of two primary cells.2. determination of internal resistance of a cell
373 27-Apr-17 Thu
General RC-circuits, Meter bridge, Applications,Experiments:Resistivity of the material of a given wire using metre bridge,Resistance of a given wire using Ohm's Law,Potentiometer-1.Comparision of emf of two primary cells.2. determination of internal resistance of a cell
374 28-Apr-17 Fri
General RC-circuits, Meter bridge, Applications,Experiments:Resistivity of the material of a given wire using metre bridge,Resistance of a given wire using Ohm's Law,Potentiometer-1.Comparision of emf of two primary cells.2. determination of internal resistance of a cell
375 29-Apr-17 Sat
376 30-Apr-17 Sun Sunday
General RC-circuits, Meter bridge, Applications,Experiments:Resistivity of the material of a given
wire using metre bridge,Resistance of a given wire using Ohm's Law,Potentiometer-1.Comparision of emf of two primary cells.2. determination of internal resistance of a cell (70%)Introduction to dielectrics, discussion on effect of dielectric when introduced in to a capacitor (isolated or in a circuit). Energy related and switching problems of capacitors involving dielectrics, Introduction to RC - circuits: basic charging circuite with a single cell, a resistor and a capacitor in a single loop, basic discharging circuit with a single charged capacitor and a single
resistor in a single loop (30%)
General RC-circuits, Meter bridge, Applications,Experiments:Resistivity of the material of a given wire using metre bridge,Resistance of a given wire using Ohm's Law,Potentiometer-1.Comparision of emf of two primary cells.2. determination of internal resistance of a cell (60%)Introduction to dielectrics, discussion on effect of dielectric when introduced in to a capacitor (isolated or in a circuit). Energy related and switching problems of capacitors involving
dielectrics, Introduction to RC - circuits: basic charging circuite with a single cell, a resistor and a capacitor in a single loop, basic discharging circuit with a single charged capacitor and a single resistor in a single loop (30%)Cummulative syllabus covered till now (10%)
Sunday Exam Syllabus
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Sunday Exam Syllabus
For JEE-Main
Page 42 of 48
SYLLABUS COVERED FROM 27-03-17 TO 28-04-17
377 1-May-17 Mon
Magnetism:Magnetic force on moving point charges and current elements, Motion of a charged particle in magnetic
and electric field, Magnetic dipoles moment, magnetic torque, magnetic dipoles, Torque, P.E and interaction regarding
magnetic dipole,Cyclotron
378 2-May-17 Tue
Magnetism:Magnetic force on moving point charges and current elements, Motion of a charged particle in magnetic
and electric field, Magnetic dipoles moment, magnetic torque, magnetic dipoles, Torque, P.E and interaction regarding
magnetic dipole,Cyclotron
379 3-May-17 Wed
Magnetism:Magnetic force on moving point charges and current elements, Motion of a charged particle in magnetic
and electric field, Magnetic dipoles moment, magnetic torque, magnetic dipoles, Torque, P.E and interaction regarding
magnetic dipole,Cyclotron
380 4-May-17 Thu
Magnetism:Magnetic force on moving point charges and current elements, Motion of a charged particle in magnetic
and electric field, Magnetic dipoles moment, magnetic torque, magnetic dipoles, Torque, P.E and interaction regarding
magnetic dipole,Cyclotron
381 5-May-17 Fri
Magnetism:Magnetic force on moving point charges and current elements, Motion of a charged particle in magnetic
and electric field, Magnetic dipoles moment, magnetic torque, magnetic dipoles, Torque, P.E and interaction regarding
magnetic dipole,Cyclotron
382 6-May-17 Sat
383 7-May-17 Sun Sunday
Magnetism:Magnetic force on moving point charges and current elements, Motion of a charged particle in magnetic and electric field, Magnetic dipoles moment, magnetic torque, magnetic dipoles, Torque, P.E and interaction regarding magnetic dipole,Cyclotron (70%)General RC-circuits, Meter bridge, Applications,Experiments:Resistivity of the material of a given wire using metre bridge,Resistance of a given wire using Ohm's Law,Potentiometer-
1.Comparision of emf of two primary cells.2. determination of internal resistance of a cell (30%)
Magnetism:Magnetic force on moving point charges and current elements, Motion of a charged particle in magnetic and electric field, Magnetic dipoles moment, magnetic torque, magnetic dipoles, Torque, P.E and interaction regarding magnetic dipole,Cyclotron (60%)General RC-circuits, Meter bridge, Applications,Experiments:Resistivity of the material of a given
wire using metre bridge,Resistance of a given wire using Ohm's Law,Potentiometer-
1.Comparision of emf of two primary cells.2. determination of internal resistance of a cell (30%), Cummulative syllabus covered till now (10%)
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
MONDAY Exam Syllabus
For JEE-Advance (CT-1)
Page 43 of 48
384 8-May-17 MonBiot Savart’s Law, Ampere’s Law & their applications,Moving coil galvanometer,its current sensitivity, Calculation of magnetic flux (Exclude Faraday's law and Lenz's law)
385 9-May-17 TueBiot Savart’s Law, Ampere’s Law & their applications,Moving coil galvanometer,its current sensitivity, Calculation of magnetic flux (Exclude Faraday's law and Lenz's law)
386 10-May-17 WedBiot Savart’s Law, Ampere’s Law & their applications,Moving coil galvanometer,its current sensitivity, Calculation
of magnetic flux (Exclude Faraday's law and Lenz's law)
387 11-May-17 ThuBiot Savart’s Law, Ampere’s Law & their applications,Moving coil galvanometer,its current sensitivity, Calculation of magnetic flux (Exclude Faraday's law and Lenz's law)
388 12-May-17 FriBiot Savart’s Law, Ampere’s Law & their applications,Moving coil galvanometer,its current sensitivity, Calculation of magnetic flux (Exclude Faraday's law and Lenz's law)
389 13-May-17 Sat
390 14-May-17 Sun Sunday
Biot Savart’s Law, Ampere’s Law & their applications,Moving coil galvanometer,its current sensitivity, Calculation of magnetic flux (Exclude Faraday's law and Lenz's law) (70%) Magnetism:Magnetic force on moving point charges and current elements, Motion of a charged particle in magnetic and electric field, Magnetic dipoles moment, magnetic torque, magnetic dipoles, Torque, P.E and interaction regarding magnetic dipole,Cyclotron (30%)
Biot Savart’s Law, Ampere’s Law & their applications,Moving coil galvanometer,its current sensitivity, Calculation of magnetic flux (Exclude Faraday's law and Lenz's law) (60%) Magnetism:Magnetic force on moving point charges and current elements, Motion of a charged particle in magnetic and electric field, Magnetic dipoles moment, magnetic torque, magnetic dipoles, Torque, P.E and interaction regarding magnetic dipole,Cyclotron (30%), Cummulative syllabus covered till now (10%)
391 15-May-17 Mon Faraday's law of EMI, Lenz's law, Motional EMF, Induced electric field
392 16-May-17 Tue Faraday's law of EMI, Lenz's law, Motional EMF, Induced electric field
393 17-May-17 Wed Faraday's law of EMI, Lenz's law, Motional EMF, Induced electric field
394 18-May-17 Thu Faraday's law of EMI, Lenz's law, Motional EMF, Induced electric field
395 19-May-17 Fri Faraday's law of EMI, Lenz's law, Motional EMF, Induced electric field
396 20-May-17 Sat
397 21-May-17 Sun Sunday
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 44 of 48
Faraday's law of EMI, Lenz's law, Motional EMF, Induced electric field (70%)Biot Savart’s Law, Ampere’s Law & their applications,Moving coil galvanometer,its current sensitivity, Calculation of magnetic flux (Exclude Faraday's law and Lenz's law) (30%)
Faraday's law of EMI, Lenz's law, Motional EMF, Induced electric field (60%)
Biot Savart’s Law, Ampere’s Law & their applications,Moving coil galvanometer,its current sensitivity, Calculation of magnetic flux (Exclude Faraday's law and Lenz's law) (30%), Cummulative syllabus covered till now (10%)
SYLLABUS COVERED FROM 24-04-17 TO 20-05-17
398 22-May-17 Mon Betterment Exam Preparation
399 23-May-17 Tue Betterment Exam Preparation
400 24-May-17 Wed Betterment Exam Preparation
401 25-May-17 Thu Betterment Exam Preparation
402 26-May-17 Fri Betterment Exam Preparation
403 27-May-17 Sat Betterment Exam Preparation
404 28-May-17 Sun Sunday
405 29-May-17 Mon Self and mutual induction, L-R circuits, L-C Oscillations with D-C source and eddy currents
406 30-May-17 Tue Self and mutual induction, L-R circuits, L-C Oscillations with D-C source and eddy currents
407 31-May-17 Wed Self and mutual induction, L-R circuits, L-C Oscillations with D-C source and eddy currents
408 1-Jun-17 Thu Self and mutual induction, L-R circuits, L-C Oscillations with D-C source and eddy currents
409 2-Jun-17 Fri Self and mutual induction, L-R circuits, L-C Oscillations with D-C source and eddy currents
410 3-Jun-17 Sat
411 4-Jun-17 Sun Sunday
Self and mutual induction, L-R circuits, L-C Oscillations with D-C source and eddy currents (70%)Faraday's law of EMI, Lenz's law, Motional EMF, Induced electric field (30%)
Self and mutual induction, L-R circuits, L-C Oscillations with D-C source and eddy currents (60%)
Faraday's law of EMI, Lenz's law, Motional EMF, Induced electric field (30%)Cummulative syllabus covered till now (10%)
412 5-Jun-17 MonAC: Definition of Mean and RMS values, AC measuring devices, simple circuit involving AC source across only resistor,
only capacitor, only inductance, Complete AC including transformers and Generator
MONDAY Exam Syllabus
For JEE-Advance (CT-2)
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
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Sunday Exam Syllabus
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Sunday Exam Syllabus
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Page 45 of 48
413 6-Jun-17 TueAC: Definition of Mean and RMS values, AC measuring devices, simple circuit involving AC source across only resistor,
only capacitor, only inductance, Complete AC including transformers and Generator
414 7-Jun-17 WedAC: Definition of Mean and RMS values, AC measuring devices, simple circuit involving AC source across only resistor,
only capacitor, only inductance, Complete AC including transformers and Generator
415 8-Jun-17 ThuAC: Definition of Mean and RMS values, AC measuring devices, simple circuit involving AC source across only resistor,
only capacitor, only inductance, Complete AC including transformers and Generator
416 9-Jun-17 FriAC: Definition of Mean and RMS values, AC measuring devices, simple circuit involving AC source across only resistor,
only capacitor, only inductance, Complete AC including transformers and Generator
417 10-Jun-17 Sat
418 11-Jun-17 Sun Sunday
AC: Definition of Mean and RMS values, AC measuring devices, simple circuit involving AC source
across only resistor, only capacitor, only inductance, Complete AC including transformers and Generator (70%)Self and mutual induction, L-R circuits, L-C Oscillations with D-C source and eddy currents (30%)
AC: Definition of Mean and RMS values, AC measuring devices, simple circuit involving AC source across only resistor, only capacitor, only inductance, Complete AC including transformers and Generator (60%)
Self and mutual induction, L-R circuits, L-C Oscillations with D-C source and eddy currents (30%)Cummulative syllabus covered till now (10%)
419 12-Jun-17 MonAtomic Physics (Excluding X-rays, Moseley's law, Matter waves), Photo Electric Effect: Photo Electric Effect,radiation,Hertz and Lenard's observations
420 13-Jun-17 TueAtomic Physics (Excluding X-rays, Moseley's law, Matter waves), Photo Electric Effect: Photo Electric
Effect,radiation,Hertz and Lenard's observations
421 14-Jun-17 WedAtomic Physics (Excluding X-rays, Moseley's law, Matter waves), Photo Electric Effect: Photo Electric
Effect,radiation,Hertz and Lenard's observations
422 15-Jun-17 ThuAtomic Physics (Excluding X-rays, Moseley's law, Matter waves), Photo Electric Effect: Photo Electric Effect,radiation,Hertz and Lenard's observations
423 16-Jun-17 FriAtomic Physics (Excluding X-rays, Moseley's law, Matter waves), Photo Electric Effect: Photo Electric
Effect,radiation,Hertz and Lenard's observations
424 17-Jun-17 Sat
425 18-Jun-17 Sun Sunday
Sunday Exam Syllabus
For JEE-Main
Sunday Exam Syllabus
For JEE-Advance
Page 46 of 48
Atomic Physics (Excluding X-rays, Moseley's law, Matter waves), Photo Electric Effect: Photo Electric Effect,radiation,Hertz and Lenard's observations (70%)AC: Definition of Mean and RMS values, AC measuring devices, simple circuit involving AC source across only resistor, only capacitor, only inductance, Complete AC including transformers and Generator (30%)
Atomic Physics (Excluding X-rays, Moseley's law, Matter waves), Photo Electric Effect: Photo Electric Effect,radiation,Hertz and Lenard's observations (60%)AC: Definition of Mean and RMS values, AC measuring devices, simple circuit involving AC source across only resistor, only capacitor, only inductance, Complete AC including transformers and Generator (30%)Cummulative syllabus covered till now (10%)
Quantum numbers, Pauli's exclusion Principle; Hund's rule; Electronic configuration of the elements (30%)
20 9-May-16 Mon Concept of redox reactions - oxidation number - Types of redox reactions
21 10-May-16 Tue Balancing Redox reactions
22 11-May-16 Wed Equivalent weight
23 12-May-16 ThuMethods of expressing concnetration of a solution - % by weight, Molarity, Molality, Normality, Mole fraction, ppm, % labelling of oleum,
volume strength of hydrogen peroxide
2413-May-16 Fri
Methods of expressing concnetration of a solution - % by weight, Molarity, Molality, Normality, Mole fraction, ppm, % labelling of oleum,
volume strength of hydrogen peroxide
25 14-May-16 Sat
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Monday Exam Syllabus
For JEE-Advance
Page 2 of 36
S.NO DATE DAY TOPIC
Concept of redox reactions - oxidation number - Types of redox reactions, Balancing Redox reactions, Equivalent weight, Methods of expressing
concnetration of a solution - % by weight, Molarity, Molality, Normality, Mole fraction, ppm, % labelling of oleum, volume strength of hydrogen
peroxide (70%)
Pauli's exclusion Principle; Hund's rule; Electronic configuration of the elements, Mole concept, Chemical calculations based upon weight, volume
relations of chemical equations, percentage composition of mixtures,empirical and molecular formula (30%)
26 15-May-16 Sun Sunday
Concept of redox reactions - oxidation number - Types of redox reactions, Balancing Redox reactions, Equivalent weight, Methods of expressing
concnetration of a solution - % by weight, Molarity, Molality, Normality, Mole fraction, ppm, % labelling of oleum, volume strength of hydrogen
peroxide (60%)
Pauli's exclusion Principle; Hund's rule; Electronic configuration of the elements, Mole concept, Chemical calculations based upon weight, volume
relations of chemical equations, percentage composition of mixtures,empirical and molecular formula (30%)
Cumulative syllabus (10%)
27 16-May-16 Mon stoichimetry-II (5×2 =10): Titrations and Theory of indicators
28 17-May-16 Tue Volumetric analysis: neutralisation titrations - simple titrations, double titrations and back titrations
29 18-May-16 Wed Volumetric analysis: neutralisation titrations - simple titrations, double titrations and back titrations
30 19-May-16 Thu Redox titrations: oxalic-acid vs KMnO4, Mohr’s salt vs KMnO4 ; iodometry , iodimetry, Degree of hardness of water
31 20-May-16 Fri Redox titrations: oxalic-acid vs KMnO4, Mohr’s salt vs KMnO4 ; iodometry , iodimetry, Degree of hardness of water
32 21-May-16 Sat
stoichimetry-II :Titrations and Theory of indicators, Volumetric analysis: neutralisation titrations - simple titrations, double titrations and back
titrations, Redox titrations: oxalic-acid vs KMnO4, Mohr’s salt vs KMnO4 ; iodometry , iodimetry, Degree of hardness of water (70%)
Concept of redox reactions - oxidation number - Types of redox reactions, Balancing Redox reactions, Equivalent weight, Methods of expressing
concnetration of a solution - % by weight, Molarity, Molality, Normality, Mole fraction, ppm, % labelling of oleum, volume strength of hydrogen
peroxide (30%)
22-May-16 Sun Sunday
stoichimetry-II :Titrations and Theory of indicators, Volumetric analysis: neutralisation titrations - simple titrations, double titrations and back
titrations, Redox titrations: oxalic-acid vs KMnO4, Mohr’s salt vs KMnO4 ; iodometry , iodimetry, Degree of hardness of water (60%)
Concept of redox reactions - oxidation number - Types of redox reactions, Balancing Redox reactions, Equivalent weight, Methods of expressing
concnetration of a solution - % by weight, Molarity, Molality, Normality, Mole fraction, ppm, % labelling of oleum, volume strength of hydrogen
peroxide (30%)
Cumulative syllabus (10%)
34 23-May-16 Mon Gaseous State (5×2=10): Measurable properties of gases; Gas Laws - Ideal gas equation
35 24-May-16 Tue Dalton's Law of Partial pressure: Graham's Law of diffusion
36 25-May-16 Wed Kinetic theory of gases; Distribution of molecular velocities; Kinetic energy
37 26-May-16 Thu Non ideality of gases; vander Waal's equaiton of state, Compressibility factor; liquifaction of gases & Critical state
Saturday Exam Syllabus
For JEE-Main
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Monday Exam Syllabus
For JEE-Advance
Page 3 of 36
S.NO DATE DAY TOPIC
38 27-May-16 Fri Non ideality of gases; vander Waal's equaiton of state, Compressibility factor; liquifaction of gases & Critical state
39 28-May-16 Sat
Gaseous State:Measurable properties of gases; Gas Laws - Ideal gas equation, Dalton's Law of Partial pressure: Graham's Law of diffusion, Kinetic
theory of gases; Distribution of molecular velocities; Kinetic energy, Non ideality of gases; vander Waal's equaiton of state, Compressibility factor;
liquifaction of gases & Critical state (70%)
stoichimetry-II:Titrations and Theory of indicators, Volumetric analysis: neutralisation titrations - simple titrations, double titrations and back
titrations, Redox titrations: oxalic-acid vs KMnO4, Mohr’s salt vs KMnO4 ; iodometry , iodimetry, Degree of hardness of water (30%)
40 29-May-16 Sun Sunday
Gaseous State:Measurable properties of gases; Gas Laws - Ideal gas equation, Dalton's Law of Partial pressure: Graham's Law of diffusion, Kinetic
theory of gases; Distribution of molecular velocities; Kinetic energy, Non ideality of gases; vander Waal's equaiton of state, Compressibility factor;
liquifaction of gases & Critical state (60%)
stoichimetry-II:Titrations and Theory of indicators, Volumetric analysis: neutralisation titrations - simple titrations, double titrations and back
titrations, Redox titrations: oxalic-acid vs KMnO4, Mohr’s salt vs KMnO4 ; iodometry , iodimetry, Degree of hardness of water (30%)
Cumulative syllabus (10%)
41 30-May-16 MonChemical Equilbirum(5×2 =10): Equilibrium involving physical processes: solid - liquid; liquid - gas and solid - gas. General charecterstics of equilibrium
involving physical process
4231-May-16 Tue
Equilibrium involving chemical processes, characteristics of equilibrium state, Law of mass action, equilibrium constant, characteristics of
equilibrium constant, Kp, Kc relation
43 1-Jun-16 WedEquilibrium involving chemical processes, characteristics of equilibrium state, Law of mass action, equilibrium constant, characteristics of
equilibrium constant, Kp, Kc relation
442-Jun-16 Thu
Lechatlier’s principle - factors effecting equilibrium concentration, pressure, temperature and effect of catalyst, principle applied for
synthesis of ammonia and sulphur trioxide and other typical reactions, Thermodynamics of equilibrium constant. Significance of ∆G and
∆G˚ in chemical equilibrium
45 3-Jun-16 Fri
Lechatlier’s principle - factors effecting equilibrium concentration, pressure, temperature and effect of catalyst, principle applied for
synthesis of ammonia and sulphur trioxide and other typical reactions, Thermodynamics of equilibrium constant. Significance of ∆G and
∆G˚ in chemical equilibrium
46 4-Jun-16 Sat
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Page 4 of 36
S.NO DATE DAY TOPIC
Chemical Equilbirum:- Equilibrium involving physical processes: solid - liquid; liquid - gas and solid - gas. General charecterstics of equilibrium
involving physical process, Equilibrium involving chemical processes, characteristics of equilibrium state, Law of mass action, equilibrium constant,
characteristics of equilibrium constant, Kp, Kc relation, Lechatlier’s principle - factors effecting equilibrium concentration, pressure, temperature
and effect of catalyst, principle applied for synthesis of ammonia and sulphur trioxide and other typical reactions, Thermodynamics of equilibrium
constant. Significance of ∆G and ∆G˚ in chemical equilibrium (70%)
Gaseous State: Measurable properties of gases; Gas Laws - Ideal gas equation, Dalton's Law of Partial pressure: Graham's Law of diffusion, Kinetic
theory of gases; Distribution of molecular velocities; Kinetic energy, Non ideality of gases; vander Waal's equaiton of state, Compressibility factor;
liquifaction of gases & Critical state (30%)
47 5-Jun-16 Sun Sunday
Chemical Equilbirum:- Equilibrium involving physical processes: solid - liquid; liquid - gas and solid - gas. General charecterstics of equilibrium
involving physical process, Equilibrium involving chemical processes, characteristics of equilibrium state, Law of mass action, equilibrium constant,
characteristics of equilibrium constant, Kp, Kc relation, Lechatlier’s principle - factors effecting equilibrium concentration, pressure, temperature
and effect of catalyst, principle applied for synthesis of ammonia and sulphur trioxide and other typical reactions, Thermodynamics of equilibrium
constant. Significance of ∆G and ∆G˚ in chemical equilibrium (60%)
Gaseous State: Measurable properties of gases; Gas Laws - Ideal gas equation, Dalton's Law of Partial pressure: Graham's Law of diffusion, Kinetic
theory of gases; Distribution of molecular velocities; Kinetic energy, Non ideality of gases; vander Waal's equaiton of state, Compressibility factor;
liquifaction of gases & Critical state (30%)
Cumulative syllabus (10%)
486-Jun-16 Mon Ionic Equilibrium(10×2 =20):Theories of acid & bases – Arhenius, Bronsted-Lowry and Lewis theory, Ionic product of water and pH scale
49 7-Jun-16 Tue pH calculation involving strong and weak acids and bases, Levelling effect, Common ion effect, Dissociation of polyprotic acids
50 8-Jun-16 Wed pH calculation involving strong and weak acids and bases, Levelling effect, Common ion effect, Dissociation of polyprotic acids
519-Jun-16 Thu pH calculation involving strong and weak acids and bases, Levelling effect, Common ion effect, Dissociation of polyprotic acids
52 10-Jun-16 Fri Buffer solutions
53 11-Jun-16 Sat
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Page 5 of 36
S.NO DATE DAY TOPIC
Ionic Equilibrium:Theories of acid & bases – Arhenius, Bronsted-Lowry and Lewis theory, Ionic product of water and pH scale,pH calculation
involving strong and weak acids and bases, Levelling effect, Common ion effect, Dissociation of polyprotic acids, Buffer solutions(70%),
Chemical Equilbirum: Equilibrium involving physical processes: solid - liquid; liquid - gas and solid - gas. General charecterstics of equilibrium
involving physical process ,Equilibrium involving chemical processes, characteristics of equilibrium state, Law of mass action, equilibrium constant,
characteristics of equilibrium constant, Kp, Kc relation ,Lechatlier’s principle - factors effecting equilibrium concentration, pressure, temperature
and effect of catalyst, principle applied for synthesis of ammonia and sulphur trioxide and other typical reactions, Thermodynamics of equilibrium
constant. Significance of ∆G and ∆G˚ in chemical equilibrium(30%)
54 12-Jun-16 Sun Sunday
Ionic Equilibrium:Theories of acid & bases – Arhenius, Bronsted-Lowry and Lewis theory, Ionic product of water and pH scale,pH calculation
involving strong and weak acids and bases, Levelling effect, Common ion effect, Dissociation of polyprotic acids, Buffer solutions (60%),
Chemical Equilbirum: Equilibrium involving physical processes: solid - liquid; liquid - gas and solid - gas. General charecterstics of equilibrium
involving physical process ,Equilibrium involving chemical processes, characteristics of equilibrium state, Law of mass action, equilibrium constant,
characteristics of equilibrium constant, Kp, Kc relation ,Lechatlier’s principle - factors effecting equilibrium concentration, pressure, temperature
and effect of catalyst, principle applied for synthesis of ammonia and sulphur trioxide and other typical reactions, Thermodynamics of equilibrium
constant. Significance of ∆G and ∆G˚ in chemical equilibrium(30%), Cumulative Syllabus(10%)
55 13-Jun-16 Mon salt hydrolysis
56 14-Jun-16 Tue salt hydrolysis
57 15-Jun-16 Wed Solubility of sparingly soluble salts and solubility product
58 16-Jun-16 Thu Solubility of sparingly soluble salts and solubility product
59 17-Jun-16 Fri Solubility of sparingly soluble salts and solubility product
60 18-Jun-16 Sat
Ionic Equilibrium:salt hydrolysis,Solubility of sparingly soluble salts and solubility product(70%),
Ionic Equilibrium:Theories of acid & bases – Arhenius, Bronsted-Lowry and Lewis theory, Ionic product of water and pH scale,pH calculation
involving strong and weak acids and bases, Levelling effect, Common ion effect, Dissociation of polyprotic acids, Buffer solutions(30%)
61 19-Jun-16 Sun Sunday
Ionic Equilibrium:salt hydrolysis,Solubility of sparingly soluble salts and solubility product(60%),
Ionic Equilibrium:Theories of acid & bases – Arhenius, Bronsted-Lowry and Lewis theory, Ionic product of water and pH scale,pH calculation
involving strong and weak acids and bases, Levelling effect, Common ion effect, Dissociation of polyprotic acids, Buffer solutions(30%),
Cumulative Syllabus(10%)
62 20-Jun-16 Mon HOME-SICK HOLIDAYS(AFTER THE EXAM 10.30 AM ONWARDS)
Monday Exam Syllabus
For JEE-Advance
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Saturday Exam Syllabus
For JEE-Main
Page 6 of 36
S.NO DATE DAY TOPIC
63 21-Jun-16 Tue HOME-SICK HOLIDAYS
64 22-Jun-16 Wed HOME-SICK HOLIDAYS
65 23-Jun-16 Thu HOME-SICK HOLIDAYS
66 24-Jun-16 Fri HOME-SICK HOLIDAYS
67 25-Jun-16 Sat HOME-SICK HOLIDAYS
68 26-Jun-16 Sun HOME-SICK HOLIDAYS (REPORTING TIME IS AFTER 5.00 PM)
69 27-Jun-16 MonClassification of Elements and Periodicity in Properties (5×2=10): Modern periodic law and present form of the periodic table, s, p, d and f block
elements
70 28-Jun-16 Tue Modern periodic law and present form of the periodic table, s, p, d and f block elements
71 29-Jun-16 Wed Periodic trends in properties of elements atomic and ionic radii, ionization enthalpy, electron gain enthalpy
72 30-Jun-16 Thu Periodic trends in properties of elements atomic and ionic radii, ionization enthalpy, electron gain enthalpy
73 1-Jul-16 Fri Periodic trends in properties of elements atomic and ionic radii, ionization enthalpy, electron gain enthalpy
74 2-Jul-16 Sat
Classification of Elements and Periodicity in Properties : Modern periodic law and present form of the periodic table, s, p, d and f block
elements,Modern periodic law and present form of the periodic table, s, p, d and f block elements,Periodic trends in properties of elements atomic
and ionic radii, ionization enthalpy, electron gain enthalpy(70%),
Ionic Equilibrium:salt hydrolysis,Solubility of sparingly soluble salts and solubility product(30%)
75 3-Jul-16 Sun Sunday
Classification of Elements and Periodicity in Properties : Modern periodic law and present form of the periodic table, s, p, d and f block
elements,Modern periodic law and present form of the periodic table, s, p, d and f block elements,Periodic trends in properties of elements atomic
and ionic radii, ionization enthalpy, electron gain enthalpy(60%),
Ionic Equilibrium:salt hydrolysis,Solubility of sparingly soluble salts and solubility product(30%)
Cumulative syllabus (10%)
76 4-Jul-16 MonChemical Bonding and Molecular Strucuture (12×2=24): Kossel – Lewis approach to chemical bond formation, concept of ionic and covalent bonds,
Lewis strucutres, Formal Charge
77 5-Jul-16 Tue Ionic Bonding: Formation of ionic bonds, factors affecting the formation of ionic bonds; calculation of lattice enthalpy, Fajan's rules
78 6-Jul-16 WedIonic Bonding: Formation of ionic bonds, factors affecting the formation of ionic bonds; calculation of lattice enthalpy, Fajan's rules
(RAMZAN)
79 7-Jul-16 Thu Valence Shell Electron Pair Repulsion (VSEPR) theory and shapes of simple molecules, dipole moment
80 8-Jul-16 Fri Valence Shell Electron Pair Repulsion (VSEPR) theory and shapes of simple molecules, dipole moment
81 9-Jul-16 Sat
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Page 7 of 36
S.NO DATE DAY TOPIC
Chemical Bonding and Molecular Strucuture: Kossel – Lewis approach to chemical bond formation, concept of ionic and covalent bonds, Lewis
strucutres, Formal Charge,Ionic Bonding: Formation of ionic bonds, factors affecting the formation of ionic bonds; calculation of lattice enthalpy,
Fajan's rules,Valence Shell Electron Pair Repulsion (VSEPR) theory and shapes of simple molecules, dipole moment(70%),
Classification of Elements and Periodicity in Properties : Modern periodic law and present form of the periodic table, s, p, d and f block
elements,Modern periodic law and present form of the periodic table, s, p, d and f block elements,Periodic trends in properties of elements atomic
and ionic radii, ionization enthalpy, electron gain enthalpy(30%)
82 10-Jul-16 Sun Sunday
Chemical Bonding and Molecular Strucuture : Kossel – Lewis approach to chemical bond formation, concept of ionic and covalent bonds, Lewis
strucutres, Formal Charge,Ionic Bonding: Formation of ionic bonds, factors affecting the formation of ionic bonds; calculation of lattice enthalpy,
Fajan's rules,Valence Shell Electron Pair Repulsion (VSEPR) theory and shapes of simple molecules, dipole moment(60%),
Classification of Elements and Periodicity in Properties: Modern periodic law and present form of the periodic table, s, p, d and f block
elements,Modern periodic law and present form of the periodic table, s, p, d and f block elements,Periodic trends in properties of elements atomic
and ionic radii, ionization enthalpy, electron gain enthalpy(30%), Cumulative Syllabus
(10%)
83 11-Jul-16 MonQuantum mechanical approach to covalent bonding: Valence bond theory – Its important features, concept of hybridization involving s, p
and d orbitals; Resonance.
84 12-Jul-16 TueQuantum mechanical approach to covalent bonding: Valence bond theory – Its important features, concept of hybridization involving s, p
and d orbitals; Resonance.
85 13-Jul-16 WedMolecular Orbital Theory – Its important features, LCAOs, types of molecular orbitals (bonding, antibonding), sigma and pi-bonds,
molecular orbital electronic configurations of homonuclear diatomic molecules, concept of bond order, bond length and bond energy
86 14-Jul-16 ThuMolecular Orbital Theory – Its important features, LCAOs, types of molecular orbitals (bonding, antibonding), sigma and pi-bonds,
molecular orbital electronic configurations of homonuclear diatomic molecules, concept of bond order, bond length and bond energy
87 15-Jul-16 Fri Elementary idea of metallic bonding, Intermolecular forces, Hydrogen bonding and its applications
88 16-Jul-16 Sat
Chemical Bonding and Molecular Strucuture :Quantum mechanical approach to covalent bonding: Valence bond theory – Its important
features, concept of hybridization involving s, p and d orbitals; Resonance,Molecular Orbital Theory – Its important features, LCAOs,
types of molecular orbitals (bonding, antibonding), sigma and pi-bonds, molecular orbital electronic configurations of homonuclear
diatomic molecules, concept of bond order, bond length and bond energy,Elementary idea of metallic bonding, Intermolecular forces,
Hydrogen bonding and its applications(70%),
Chemical Bonding and Molecular Strucuture : Kossel – Lewis approach to chemical bond formation, concept of ionic and covalent
bonds, Lewis strucutres, Formal Charge,Ionic Bonding: Formation of ionic bonds, factors affecting the formation of ionic bonds;
calculation of lattice enthalpy, Fajan's rules,Valence Shell Electron Pair Repulsion (VSEPR) theory and shapes of simple molecules,
dipole moment(30%)
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Saturday Exam Syllabus
For JEE-Main
Page 8 of 36
S.NO DATE DAY TOPIC
89 17-Jul-16 Sun Sunday
Chemical Bonding and Molecular Strucuture :Quantum mechanical approach to covalent bonding: Valence bond theory – Its important
features, concept of hybridization involving s, p and d orbitals; Resonance,Molecular Orbital Theory – Its important features, LCAOs,
types of molecular orbitals (bonding, antibonding), sigma and pi-bonds, molecular orbital electronic configurations of homonuclear
diatomic molecules, concept of bond order, bond length and bond energy,Elementary idea of metallic bonding, Intermolecular forces,
Hydrogen bonding and its applications(60%),
Chemical Bonding and Molecular Strucuture : Kossel – Lewis approach to chemical bond formation, concept of ionic and covalent
bonds, Lewis strucutres, Formal Charge,Ionic Bonding: Formation of ionic bonds, factors affecting the formation of ionic bonds;
calculation of lattice enthalpy, Fajan's rules,Valence Shell Electron Pair Repulsion (VSEPR) theory and shapes of simple molecules,
dipole moment(30%),
Cumulative Syllabus(10%)
90 18-Jul-16 MonAlkali Metals (5x2 =10): General introduction, electronic configuration and general trends in physical and chemical properties of elements, anomalous
properties of the Li, diagonal relationship of Li with Mg
91 19-Jul-16 TueGeneral introduction, electronic configuration and general trends in physical and chemical properties of elements, anomalous properties
of the Li, diagonal relationship of Li with Mg
92 20-Jul-16 WedGeneral introduction, electronic configuration and general trends in physical and chemical properties of elements, anomalous properties
of the Li, diagonal relationship of Li with Mg
93 21-Jul-16 ThuPreparation and properties of some important compounds –Oxides, peroxides, hydroxides, carbonates, bicarbonates, chlorides and
sulphates of sodium, potassium, Biological significance of Na & K
94 22-Jul-16 FriPreparation and properties of some important compounds –Oxides, peroxides, hydroxides, carbonates, bicarbonates, chlorides and
sulphates of sodium, potassium, Biological significance of Na & K
95 23-Jul-16 Sat
Alkali Metals : General introduction, electronic configuration and general trends in physical and chemical properties of elements, anomalous
properties of the Li, diagonal relationship of Li with Mg,Preparation and properties of some important compounds –Oxides, peroxides, hydroxides,
carbonates, bicarbonates, chlorides and sulphates of sodium, potassium, Biological significance of Na & K (70%),
Chemical Bonding and Molecular Strucuture :Quantum mechanical approach to covalent bonding: Valence bond theory – Its important features,
concept of hybridization involving s, p and d orbitals; Resonance,Molecular Orbital Theory – Its important features, LCAOs, types of molecular
orbitals (bonding, antibonding), sigma and pi-bonds, molecular orbital electronic configurations of homonuclear diatomic molecules, concept of
bond order, bond length and bond energy,Elementary idea of metallic bonding, Intermolecular forces, Hydrogen bonding and its applications(30%)
96 24-Jul-16 Sun Sunday
Saturday Exam Syllabus
For JEE-Main
Monday Exam Syllabus
For JEE-Advance
Page 9 of 36
S.NO DATE DAY TOPIC
Alkali Metals : General introduction, electronic configuration and general trends in physical and chemical properties of elements, anomalous
properties of the Li, diagonal relationship of Li with Mg,Preparation and properties of some important compounds –Oxides, peroxides, hydroxides,
carbonates, bicarbonates, chlorides and sulphates of sodium, potassium, Biological significance of Na & K(60%),
Chemical Bonding and Molecular Strucuture :Quantum mechanical approach to covalent bonding: Valence bond theory – Its important features,
concept of hybridization involving s, p and d orbitals; Resonance,Molecular Orbital Theory – Its important features, LCAOs, types of molecular
orbitals (bonding, antibonding), sigma and pi-bonds, molecular orbital electronic configurations of homonuclear diatomic molecules, concept of
bond order, bond length and bond energy,Elementary idea of metallic bonding, Intermolecular forces, Hydrogen bonding and its applications(30%),
Cumulative Syllabus(10%)
97 25-Jul-16 MonAlkaline Earth Metals (5×2 =10): General introduction, electronic configuration and general trends in physical and chemical properties of elements,
anomalous properties of the Be, diagonal relationship of Be with Al
98 26-Jul-16 TueGeneral introduction, electronic configuration and general trends in physical and chemical properties of elements, anomalous properties
of the Be, diagonal relationship of Be with Al
99 27-Jul-16 WedGeneral introduction, electronic configuration and general trends in physical and chemical properties of elements, anomalous properties
of the Be, diagonal relationship of Be with Al
100 28-Jul-16 ThuPreparation, properties and industrial apllications of some important compounds - Oxides, peroxides, hydroxides, carbonates,
bicarbonates, chlorides and sulphates of Magnesium and Calcium, plaster of paris and cement; Biological significance of Mg and Ca.
101 29-Jul-16 FriPreparation, properties and industrial apllications of some important compounds - Oxides, peroxides, hydroxides, carbonates,
bicarbonates, chlorides and sulphates of Magnesium and Calcium and cement; Biological significance of Mg and Ca.
102 30-Jul-16 Sat
Alkaline Earth Metals : General introduction, electronic configuration and general trends in physical and chemical properties of elements,
anomalous properties of the Be, diagonal relationship of Be with Al,Preparation, properties and industrial apllications of some important
compounds - Oxides, peroxides, hydroxides, carbonates, bicarbonates, chlorides and sulphates of Magnesium and Calcium, plaster of paris and
cement; Biological significance of Mg and Ca(70%),
Alkali Metals : General introduction, electronic configuration and general trends in physical and chemical properties of elements, anomalous
properties of the Li, diagonal relationship of Li with Mg,Preparation and properties of some important compounds –Oxides, peroxides, hydroxides,
carbonates, bicarbonates, chlorides and sulphates of sodium, potassium, Biological significance of Na & K (30%)
103 31-Jul-16 Sun Sunday
Monday Exam Syllabus
For JEE-Advance
Saturday Exam Syllabus
For JEE-Main
Page 10 of 36
S.NO DATE DAY TOPIC
Alkaline Earth Metals : General introduction, electronic configuration and general trends in physical and chemical properties of elements,
anomalous properties of the Be, diagonal relationship of Be with Al,Preparation, properties and industrial apllications of some important
compounds - Oxides, peroxides, hydroxides, carbonates, bicarbonates, chlorides and sulphates of Magnesium and Calcium, plaster of paris and
cement; Biological significance of Mg and Ca(60%),
Alkali Metals : General introduction, electronic configuration and general trends in physical and chemical properties of elements, anomalous
properties of the Li, diagonal relationship of Li with Mg,Preparation and properties of some important compounds –Oxides, peroxides, hydroxides,
carbonates, bicarbonates, chlorides and sulphates of sodium, potassium, Biological significance of Na & K(30%), Cumulative
Syllabus(10%)
104 1-Aug-16 MonGroup 13(5×2 =10): Electronic configuration and general trends in physical and chemical properties of elements across the periods and down the
groups; unique behaviour Boron
105 2-Aug-16 TuePreparation, properties and uses of boron and aluminium; properties of boric acid, diborane, boron trifluoride, borax, alumina, aluminium
chloride and alums.
106 3-Aug-16 WedPreparation, properties and uses of boron and aluminium; properties of boric acid, diborane, boron trifluoride, borax, alumina, aluminium
chloride and alums.
107 4-Aug-16 ThuPreparation, properties and uses of boron and aluminium; properties of boric acid, diborane, boron trifluoride, borax, alumina, aluminium
chloride and alums.
108 5-Aug-16 FriPreparation, properties and uses of boron and aluminium; properties of boric acid, diborane, boron trifluoride, borax, alumina, aluminium
chloride and alums.
109 6-Aug-16 Sat
Group 13 Electronic configuration and general trends in physical and chemical properties of elements across the periods and down the groups;
unique behaviour Boron,Preparation, properties and uses of boron and aluminium; properties of boric acid, diborane, boron trifluoride, borax,
alumina, aluminium chloride and alums(70%),
Alkaline Earth Metals: General introduction, electronic configuration and general trends in physical and chemical properties of elements,
anomalous properties of the Be, diagonal relationship of Be with Al,Preparation, properties and industrial apllications of some important
compounds - Oxides, peroxides, hydroxides, carbonates, bicarbonates, chlorides and sulphates of Magnesium and Calcium, plaster of paris and
cement; Biological significance of Mg and Ca(30%)
110 7-Aug-16 Sun Sunday
Group 13: Electronic configuration and general trends in physical and chemical properties of elements across the periods and down the groups;
unique behaviour Boron,Preparation, properties and uses of boron and aluminium; properties of boric acid, diborane, boron trifluoride, borax,
alumina, aluminium chloride and alums(60%),
Alkaline Earth Metals: General introduction, electronic configuration and general trends in physical and chemical properties of elements,
anomalous properties of the Be, diagonal relationship of Be with Al,Preparation, properties and industrial apllications of some important
compounds - Oxides, peroxides, hydroxides, carbonates, bicarbonates, chlorides and sulphates of Magnesium and Calcium, plaster of paris and
cement; Biological significance of Mg and Ca(30%),Cumulative Syllabus(10%)
111 8-Aug-16 MonGroup 14 (5×2 =10): Electronic configuration and general trends in physical and chemical properties of elements across the periods and
down the groups; unique behaviour carbon, Allotropes of carbon, tendency for catenation; Structure & properties of silicates, and zeolites.
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S.NO DATE DAY TOPIC
112 9-Aug-16 TueElectronic configuration and general trends in physical and chemical properties of elements across the periods and down the groups;
unique behaviour carbon, Allotropes of carbon, tendency for catenation; Structure & properties of silicates, and zeolites.
113 10-Aug-16 WedElectronic configuration and general trends in physical and chemical properties of elements across the periods and down the groups;
unique behaviour carbon, Allotropes of carbon, tendency for catenation; Structure & properties of silicates, and zeolites.
114 11-Aug-16 ThuPreparation, properties and uses of the following compounds, Carbon: oxides and oxyacid (carbonic acid); Silicon: silicones and silicon
carbide
115 12-Aug-16 FriPreparation, properties and uses of the following compounds, Carbon: oxides and oxyacid (carbonic acid); Silicon: silicones and silicon
carbide
116 13-Aug-16 Sat
Group 14: Electronic configuration and general trends in physical and chemical properties of elements across the periods and down the
groups; unique behaviour carbon, Allotropes of carbon, tendency for catenation; Structure & properties of silicates, and
zeolites,Preparation, properties and uses of the following compounds, Carbon: oxides and oxyacid (carbonic acid); Silicon: silicones and
silicon carbide(70%),
Group 13: Electronic configuration and general trends in physical and chemical properties of elements across the periods and down the
groups; unique behaviour Boron,Preparation, properties and uses of boron and aluminium; properties of boric acid, diborane, boron
trifluoride, borax, alumina, aluminium chloride and alums(30%)117 14-Aug-16 Sun Sunday
Group 14 : Electronic configuration and general trends in physical and chemical properties of elements across the periods and down the
groups; unique behaviour carbon, Allotropes of carbon, tendency for catenation; Structure & properties of silicates, and
zeolites,Preparation, properties and uses of the following compounds, Carbon: oxides and oxyacid (carbonic acid); Silicon: silicones and
silicon carbide(60%),
Group 13: Electronic configuration and general trends in physical and chemical properties of elements across the periods and down the
groups; unique behaviour Boron,Preparation, properties and uses of boron and aluminium; properties of boric acid, diborane, boron
trifluoride, borax, alumina, aluminium chloride and alums(30%),Cumulative Syllabus(10%)
118 15-Aug-16 MonThermodynamics(10×2=20): Terms involved in thermodynamics - System & Surrounding, Extensive and Intensive Properties, Path and State function,
types of processes
119 16-Aug-16 TueFirst law of thermodynamics , Reversible and irrevesible processes; Work - expressions for reversible, irreversible isothermal and adiabatic
processes, Heat and Heat capacity
120 17-Aug-16 WedFirst law of thermodynamics , Reversible and irrevesible processes; Work - expressions for reversible, irreversible isothermal and adiabatic
processes, Heat and Heat capacity
121 18-Aug-16 ThuThermochemistry: Enthalpy,Enthalpy of reaction - different types of enthalpies, Hess's law, Effect of temperature on enthalpy of reaction -
Kirchoff's equation
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S.NO DATE DAY TOPIC
122 19-Aug-16 FriThermochemistry: Enthalpy,Enthalpy of reaction - different types of enthalpies, Hess's law, Effect of temperature on enthalpy of reaction -
Kirchoff's equation
123 20-Aug-16 Sat
Thermodynamics: Terms involved in thermodynamics - System & Surrounding, Extensive and Intensive Properties, Path and State function, types of
processes,First law of thermodynamics , Reversible and irrevesible processes; Work - expressions for reversible, irreversible isothermal and
adiabatic processes, Heat and Heat capacity(70%),
Group 14: Electronic configuration and general trends in physical and chemical properties of elements across the periods and down the groups;
unique behaviour carbon, Allotropes of carbon, tendency for catenation; Structure & properties of silicates, and zeolites,Preparation, properties
and uses of the following compounds, Carbon: oxides and oxyacid (carbonic acid); Silicon: silicones and silicon carbide(30%),
124 21-Aug-16 Sun SundayThermodynamics: Terms involved in thermodynamics - System & Surrounding, Extensive and Intensive Properties, Path and State function, types of
processes,First law of thermodynamics , Reversible and irrevesible processes; Work - expressions for reversible, irreversible isothermal and
adiabatic processes, Heat and Heat capacity(60%),
Group 14: Electronic configuration and general trends in physical and chemical properties of elements across the periods and down the groups;
unique behaviour carbon, Allotropes of carbon, tendency for catenation; Structure & properties of silicates, and zeolites,Preparation, properties
and uses of the following compounds, Carbon: oxides and oxyacid (carbonic acid); Silicon: silicones and silicon carbide(30%),Cumulative
Syllabus(10%)
125 22-Aug-16 Mon Hess’s law and its applications, Determination of enthalpy of hydration of CuSO4, Resonance energy
126 23-Aug-16 Tue Limitations of first law of thermodynamics; Second law of Thermodynamics; Carnot cycle, efficiency of thermodynamic system.
127 24-Aug-16 Wed Entropy - physical significance, expressions in all types of processes
128 25-Aug-16 Thu Entropy - physical significance, expressions in all types of processes
129 26-Aug-16 Fri Gibb's free energy - physical significance, spontneity of processes
130 27-Aug-16 Sat
Thermochemistry: Enthalpy,Enthalpy of reaction - different types of enthalpies, Hess's law, Effect of temperature on enthalpy of
reaction - Kirchoff's equation,Hess’s law and its applications, Determination of enthalpy of hydration of CuSO4, Resonance
energy,Limitations of first law of thermodynamics; Second law of Thermodynamics; Carnot cycle, efficiency of thermodynamic
system,Entropy - physical significance, expressions in all types of processes,Gibb's free energy - physical significance, spontneity of
processes(70%),
Thermodynamics: Terms involved in thermodynamics - System & Surrounding, Extensive and Intensive Properties, Path and State
function, types of processes,First law of thermodynamics , Reversible and irrevesible processes; Work - expressions for reversible,
irreversible isothermal and adiabatic processes(30%)131 28-Aug-16 Sun Sunday
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Page 13 of 36
S.NO DATE DAY TOPIC
Thermochemistry: Enthalpy,Enthalpy of reaction - different types of enthalpies, Hess's law, Effect of temperature on enthalpy of
reaction - Kirchoff's equation,Hess’s law and its applications, Determination of enthalpy of hydration of CuSO4, Resonance
energy,Limitations of first law of thermodynamics; Second law of Thermodynamics; Carnot cycle, efficiency of thermodynamic
system,Entropy - physical significance, expressions in all types of processes,Gibb's free energy - physical significance, spontneity of
processes(60%),
Thermodynamics: Terms involved in thermodynamics - System & Surrounding, Extensive and Intensive Properties, Path and State
function, types of processes,First law of thermodynamics , Reversible and irrevesible processes; Work - expressions for reversible,
irreversible isothermal and adiabatic processes(30%),Cumulative Syllabus(10%)132 29-Aug-16 Mon Liquid Solutions and Colligative Properties (6×2=12): Henry's law, Vapour pressure, Ideal solution
149 15-Sep-16 Thu Imperfections in solids, Electrical and magnetic properties
150 16-Sep-16 Fri Imperfections in solids, Electrical and magnetic properties
151 17-Sep-16 Sat
Solid State : Unit cell and lattices, calculations involving unit cell parameteres,Packing of solids, density calculations,braggs law and its
application,Structures of simple ionic solids: NaCl, CsCl, ZnS, CaF2, Na2O, Imperfections in solids, Electrical and magnetic
properties(70%),
Non ideal solution,Aezotropic mixture,Theory of fractional distillation,Solid State : Classification of solids, Elements of symmetry (30%)
152 18-Sep-16 Sun SundaySolid State: Unit cell and lattices, calculations involving unit cell parameteres,Packing of solids, density calculations,braggs law and its
application,Structures of simple ionic solids: NaCl, CsCl, ZnS, CaF2, Na2O, Imperfections in solids, Electrical and magnetic
properties(60%),
Non ideal solution,Aezotropic mixture,Theory of fractional distillation ,Solid State : Classification of solids, Elements of
symmetry(30%),Cumulative Syllabus(10%)
153 19-Sep-16 MonElectrochemistry (10×2 =20): Electrochemical cells and cell reactions; Standard electrode potentials; Nernst equation and its relation to ΔG;
Electrochemical series, emf of galvanic cells, concentration cells
154 20-Sep-16 TueElectrochemical cells and cell reactions; Standard electrode potentials; Nernst equation and its relation to ΔG; Electrochemical series, emf
of galvanic cells, concentration cells
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S.NO DATE DAY TOPIC
155 21-Sep-16 WedElectrochemical cells and cell reactions; Standard electrode potentials; Nernst equation and its relation to ΔG; Electrochemical series, emf
of galvanic cells, concentration cells
156 22-Sep-16 ThuElectrochemical cells and cell reactions; Standard electrode potentials; Nernst equation and its relation to ΔG; Electrochemical series, emf
of galvanic cells, concentration cells
157 23-Sep-16 FriElectrochemical cells and cell reactions; Standard electrode potentials; Nernst equation and its relation to ΔG; Electrochemical series, emf
of galvanic cells, concentration cells
158 24-Sep-16 Sat
Electrochemistry : Electrochemical cells and cell reactions; Standard electrode potentials; Nernst equation and its relation to ΔG; Electrochemical
series, emf of galvanic cells, concentration cells(70%),
Solid State : Unit cell and lattices, calculations involving unit cell parameteres,Packing of solids, density calculations,braggs law and its
application,Structures of simple ionic solids: NaCl, CsCl, ZnS, CaF2, Na2O, Imperfections in solids, Electrical and magnetic properties(30%)
159 25-Sep-16 Sun SundayElectrochemistry : Electrochemical cells and cell reactions; Standard electrode potentials; Nernst equation and its relation to ΔG; Electrochemical
series, emf of galvanic cells, concentration cells(60%),
Solid State : Unit cell and lattices, calculations involving unit cell parameteres,Packing of solids, density calculations,braggs law and its
application,Structures of simple ionic solids: NaCl, CsCl, ZnS, CaF2, Na2O, Imperfections in solids, Electrical and magnetic
properties(30%),Cumulative Syllabus(10%)
160 26-Sep-16 MonFaraday’s laws of electrolysis; Electrolytic conductance, specific, equivalent and molar conductivity, Kohlrausch’s law and applications,
conductometric titrations
161 27-Sep-16 TueFaraday’s laws of electrolysis; Electrolytic conductance, specific, equivalent and molar conductivity, Kohlrausch’s law and applications,
conductometric titrations
162 28-Sep-16 WedFaraday’s laws of electrolysis; Electrolytic conductance, specific, equivalent and molar conductivity, Kohlrausch’s law and applications,
conductometric titrations
163 29-Sep-16 ThuFaraday’s laws of electrolysis; Electrolytic conductance, specific, equivalent and molar conductivity, Kohlrausch’s law and applications,
conductometric titrations
164 30-Sep-16 Fri Primary and secondary cells, Corrosion
165 1-Oct-16 Sat
Electrochemistry:Faraday’s laws of electrolysis; Electrolytic conductance, specific, equivalent and molar conductivity, Kohlrausch’s law
and applications, conductometric titrations, Primary and secondary cells, Corrosion(70%),
Electrochemical cells and cell reactions; Standard electrode potentials; Nernst equation and its relation to ΔG; Electrochemical series,
emf of galvanic cells, concentration cells(30%)
166 2-Oct-16 Sun SundayElectrochemistry:Faraday’s laws of electrolysis; Electrolytic conductance, specific, equivalent and molar conductivity, Kohlrausch’s law
and applications, conductometric titrations, Primary and secondary cells, Corrosion(60%),
Electrochemical cells and cell reactions; Standard electrode potentials; Nernst equation and its relation to ΔG; Electrochemical series,
emf of galvanic cells, concentration cells(30%),Cumulative Syllabus(10%)
168 4-Oct-16 Tue Adsorption and factors affecting adsorption
169 5-Oct-16 Wed Catalysis
170 6-Oct-16 Thu Colloidal State
171 7-Oct-16 Fri Colloidal State
172 8-Oct-16 Sat DUSSEHRA HOLIDAYS (AFTER THE EXAM 5.00 PM ONWARDS)Surface Chemistry : Adsorption and factors affecting adsorption,Catalysis,Colloidal State (70%)
Electrochemistry:Faraday’s laws of electrolysis; Electrolytic conductance, specific, equivalent and molar conductivity, Kohlrausch’s law and
applications, conductometric titrations, Primary and secondary cells, Corrosion(30%)
Surface Chemistry : Adsorption and factors affecting adsorption,Catalysis,Colloidal State (60%)
Electrochemistry:Faraday’s laws of electrolysis; Electrolytic conductance, specific, equivalent and molar conductivity, Kohlrausch’s law and
applications, conductometric titrations, Primary and secondary cells, Corrosion(30%),
Cumulative Syllabus(10%)
173 9-Oct-16 Sun DUSSEHRA HOLIDAYS
174 10-Oct-16 Mon DUSSEHRA HOLIDAYS
175 11-Oct-16 Tue DUSSEHRA HOLIDAYS
176 12-Oct-16 Wed MUHARRAM
177 13-Oct-16 Thu DUSSEHRA HOLIDAYS
178 14-Oct-16 Fri DUSSEHRA HOLIDAYS
179 15-Oct-16 Sat DUSSEHRA HOLIDAYS
180 16-Oct-16 Sun DUSSEHRA HOLIDAYS
181 17-Oct-16 MonChemical Kinetics and Nuclear Chemistry (9×2=18): Rates of chemical reactions; Order of reactions; Mechanism of reactions; Rate constant; First
order reactions, Kinetics of ester hydrolysis, inversion of sucrose, first order gas phase decompositions
182 18-Oct-16 Tue Rates of chemical reactions; Order of reactions; Rate constant; First order reactions, Kinetics of ester hydrolysis, inversion of sucrose, first
order gas phase decompositions
183 19-Oct-16 Wed Rates of chemical reactions; Order of reactions; Rate constant; First order reactions, Kinetics of ester hydrolysis, inversion of sucrose, first
order gas phase decompositions
184 20-Oct-16 Thu Temperature dependence of rate constant , Effect of catalyst
185 21-Oct-16 Fri Temperature dependence of rate constant, Effect of catalyst
186 22-Oct-16 Sat
Chemical Kinetics and Nuclear Chemistry : Rates of chemical reactions; Order of reactions; Mechanism of reactions; Rate constant; First order
reactions, Kinetics of ester hydrolysis, inversion of sucrose, first order gas phase decompositions, Temperature dependence of rate constant , Effect
of catalyst(70%),
Electrochemistry:Faraday’s laws of electrolysis; Electrolytic conductance, specific, equivalent and molar conductivity, Kohlrausch’s law and
applications, conductometric titrations(30%)
187 23-Oct-16 Sun Sunday
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S.NO DATE DAY TOPIC
Chemical Kinetics and Nuclear Chemistry : Rates of chemical reactions; Order of reactions; Mechanism of reactions; Rate constant; First order
reactions, Kinetics of ester hydrolysis, inversion of sucrose, first order gas phase decompositions, Temperature dependence of rate constant , Effect
of catalyst(60%),
Electrochemistry:Faraday’s laws of electrolysis; Electrolytic conductance, specific, equivalent and molar conductivity, Kohlrausch’s law and
188 24-Oct-16 Mon Parallel reactions and sequential reactions
189 25-Oct-16 Tue Nuclear Chemistry: Radioactivity: isotopes and isobars; Properties of α, β and γ rays
190 26-Oct-16 WedStability of nuclei with respect to proton-neutron ratio; Brief discussion on fission and fusion reactions. Kinetics of radioactive decay,
carbon dating
191 27-Oct-16 ThuStability of nuclei with respect to proton-neutron ratio; Brief discussion on fission and fusion reactions. Kinetics of radioactive decay,
carbon dating
192 28-Oct-16 Fri
193 29-Oct-16 Sat
Parallel reactions and sequential reactions,Nuclear Chemistry: Radioactivity: isotopes and isobars; Properties of α, β and γ rays,Stability of nuclei
with respect to proton-neutron ratio; Brief discussion on fission and fusion reactions. Kinetics of radioactive decay, carbon dating(70%),
Chemical Kinetics and Nuclear Chemistry : Rates of chemical reactions; Order of reactions; Mechanism of reactions; Rate constant; First order
reactions, Kinetics of ester hydrolysis, inversion of sucrose, first order gas phase decompositions, Temperature dependence of rate constant, Effect
of catalyst(30%),
194 30-Oct-16 Sun Sunday(DIWALI)
Parallel reactions and sequential reactions,Nuclear Chemistry: Radioactivity: isotopes and isobars; Properties of α, β and γ rays,Stability of nuclei
with respect to proton-neutron ratio; Brief discussion on fission and fusion reactions. Kinetics of radioactive decay, carbon dating(60%),
Chemical Kinetics and Nuclear Chemistry : Rates of chemical reactions; Order of reactions; Mechanism of reactions; Rate constant; First order
reactions, Kinetics of ester hydrolysis, inversion of sucrose, first order gas phase decompositions, Temperature dependence of rate constant, Effect
of catalyst(30%),,Cumulative Syllabus(10%)
195 31-Oct-16 Mon Purification - Crystallization, sublimation, distillation, differential extraction and chromatography - principles and their applications.
196 1-Nov-16 Tue
Qualitative analysis – Detection of nitrogen, sulphur, phosphorus and halogens. Quantitative analysis (basic principles only) – Estimation of carbon,
hydrogen, nitrogen, halogens, sulphur, phosphorus. Calculations of empirical formulae and molecular formulae; Numerical problems in organic
quantitative analysis.
197 2-Nov-16 Wed
Qualitative analysis – Detection of nitrogen, sulphur, phosphorus and halogens. Quantitative analysis (basic principles only) – Estimation of carbon,
hydrogen, nitrogen, halogens, sulphur, phosphorus. Calculations of empirical formulae and molecular formulae; Numerical problems in organic
quantitative analysis.
198 3-Nov-16 Thu Structure and Nomenclature (5×2 =10): Hybridisation of carbon; Sigma and pi-bonds; Shapes of simple organic molecules, Allotropes of carbon
199 4-Nov-16 Fri Hybridisation of carbon; Sigma and pi-bonds; Shapes of simple organic molecules, allotropes of carbon
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S.NO DATE DAY TOPIC
200 5-Nov-16 Sat
Purification and Charetization of Organic Compounds(4×2 =8): Purification - Crystallization, sublimation, distillation, differential
extraction and chromatography - principles and their applications,Qualitative analysis – Detection of nitrogen, sulphur, phosphorus and
Reactivity and orientation towards electrophilic aromatic substitutions,Nucleophilic aromatic substitution-Diazotisation,Benzyne mech. SN-Ar
mechanism (70%)
2Preparations and reactions of benzene and alkyl benzenes,Eletrophilic aromatic substitution, mechanism of halogenations, nitration,
sulphonation, nitrosation, alkylation and acylation(30%)
285 29-Jan-17 Sun SundayReactivity and orientation towards electrophilic aromatic substitutions,Nucleophilic aromatic substitution-Diazotisation,Benzyne mech. SN-Ar
mechanism (60%)
Preparations and reactions of benzene and alkyl benzenes,Eletrophilic aromatic substitution, mechanism of halogenations, nitration, sulphonation,
nitrosation, alkylation and acylation(30%) Cummulative
syllabus(10%)
286 30-Jan-17 Mon Alkyl halides(5×2 =10): Preparation and Reactions of alkyl halides, Mechanism of Nucleophilic Substitution reactions (SN1, SN2, SNi)
287 31-Jan-17 Tue Preparation and Reactions of alkyl halides, Mechanism of Nucleophilic Substitution reactions (SN1, SN2, SNi)
288 1-Feb-17 Wed Preparation and Reactions of alkyl halides, Mechanism of Nucleophilic Substitution reactions (SN1, SN2, SNi)
289 2-Feb-17 Thu Aryl halides and Polyhalogen compounds
Reactivity and orientation towards electrophilic aromatic substitutions,Nucleophilic aromatic substitution-Diazotisation,Benzyne mech. SN-Ar
mechanism (30%)
292 5-Feb-17 Sun SundayAlkyl halides: Preparation and Reactions of alkyl halides, Mechanism of Nucleophilic Substitution reactions (SN1, SN2, SNi)Aryl halides and
and reactions only (industrial details excluded); Carbon reduction method (iron and tin); Self reduction method (copper and lead); Electrolytic
reduction method (sodium, magnesium and aluminium); Cyanide process (silver and gold), Thermodynamic principles of metallurgy, electro
chemical principles of metallurgy (60%)
Nucleic acids & Vitamins, Chemistry in everyday life, Polymers (30%)
Cumulative syllabus (10%)
412 5-Jun-17 Mon d-BLOCK ELEMENTS (3 x 2 = 6) : General Characteristics, Oxidation states, Colour, Magnetic properties
413 6-Jun-17 Tue General Characteristics, Oxidation states, Colour, Magnetic properties
414 7-Jun-17 Wed General Characteristics, Oxidation states, Colour, Magnetic properties
415 8-Jun-17 ThuCO-ORDINATION COMPOUNDS (6 x 2 = 12): Introduction, Definition of important terms related to co-ordination compound,types of ligands
416 9-Jun-17 Fri Only IUPAC rules
417 10-Jun-17 Sat
d-BLOCK ELEMENTS : General Characteristics, Oxidation states, Colour, Magnetic properties, CO-ORDINATION COMPOUNDS :
Introduction, Definition of important terms related to co-ordination compound,types of ligands, Only IUPAC rules (70%)
METALLURGY : Commonly occurring ores and minerals of Iron, Copper, Tin, Lead, Magnesium, Aluminium, Zinc and Silver, Important
terms used in metallurgy, ore dressing methods, calcinations, roasting, smelting, reduction methods, refining methods, Extractive
metallurgy: Chemical principles and reactions only (industrial details excluded); Carbon reduction method (iron and tin); Self reduction
method (copper and lead); Electrolytic reduction method (sodium, magnesium and aluminium); Cyanide process (silver and gold),
Thermodynamic principles of metallurgy, electro chemical principles of metallurgy (30%)
418 11-Jun-17 Sun Sunday
d-BLOCK ELEMENTS : General Characteristics, Oxidation states, Colour, Magnetic properties, CO-ORDINATION COMPOUNDS :
Introduction, Definition of important terms related to co-ordination compound,types of ligands, Only IUPAC rules (60%)
METALLURGY : Commonly occurring ores and minerals of Iron, Copper, Tin, Lead, Magnesium, Aluminium, Zinc and Silver, Important
terms used in metallurgy, ore dressing methods, calcinations, roasting, smelting, reduction methods, refining methods, Extractive
metallurgy: Chemical principles and reactions only (industrial details excluded); Carbon reduction method (iron and tin); Self reduction
method (copper and lead); Electrolytic reduction method (sodium, magnesium and aluminium); Cyanide process (silver and gold),
Thermodynamic principles of metallurgy, electro chemical principles of metallurgy (30%)
Cumulative Syllabus(10%)
419 12-Jun-17 Mon Isomerism,Nomenclature
420 13-Jun-17 Tue Bonding in coordination compounds(V.B. theory),Werner theory,Sidgwick theory
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S.NO DATE DAY TOPIC
421 14-Jun-17 Wed Bonding in coordination compounds(V.B. theory),Werner theory,Sidgwick theory
422 15-Jun-17 Thu Basic Concepts of Crystal field theory
423 16-Jun-17 Fri Bonding in metal carbonyls, Stability of co-ordination compounds, Importance and applications of coordination compounds
424 17-Jun-17 Sat
Isomerism,Nomenclature, Bonding in coordination compounds(V.B. theory),Werner theory,Sidgwick theory, Basic Concepts of Crystal field theory,
Bonding in metal carbonyls, Stability of co-ordination compounds, Importance and applications of coordination compounds(70%)
d-BLOCK ELEMENTS : General Characteristics, Oxidation states, Colour, Magnetic properties, CO-ORDINATION COMPOUNDS : Introduction,
Definition of important terms related to co-ordination compound,types of ligands, Only IUPAC rules (30%)
425 18-Jun-17 Sun Sunday
Isomerism,Nomenclature, Bonding in coordination compounds(V.B. theory),Werner theory,Sidgwick theory, Basic Concepts of Crystal field theory,
Bonding in metal carbonyls, Stability of co-ordination compounds, Importance and applications of coordination compounds(60%)
d-BLOCK ELEMENTS : General Characteristics, Oxidation states, Colour, Magnetic properties, CO-ORDINATION COMPOUNDS : Introduction,
Definition of important terms related to co-ordination compound,types of ligands, Only IUPAC rules (30%)
Cumulative Syllabus(10%)
426 19-Jun-17 MonPREPARATION AND PROPERTIES OF IMPORTANT COMPOUNDS (3 x 2 = 6): Compounds of Sn (oxides, chlorides), Compounds of Pb (oxides, chlorides)
427 20-Jun-17 Tue Potassium permanganate and potassium dichromate
428 21-Jun-17 Wed Oxides, chlorides and sulphates of Fe2+, Cu2+, Zn2+, Silver oxide, Silver nitrate, Silver thiosulphate
Hydrogen and its compounds, Environmental Chemistry, significant figures, laws of chemical combination, surface tension, viscocity are not accommodated in the schedule. Hydrogen and its compounds & Environmental Chemistry may be covered during IPE (Jr) preparation time. Rest will be covered during Mains Grand Tests after pongal vocation