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IMT Course, Nanotechnology

Nov 02, 2014

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nanotechnology, Amity

AMITY UNIVERSITY UTTAR PRADESHGAUTAM BUDDHA NAGAR

Course Details B.tech +M.Tech Nanotechnology

Amity Institute of Nanotechnology Amity University Noida, Sector 125 Uttar Pradesh

1st Semester

APPLIED MATHEMATICS ICourse Code: BTMMT 10101 Course Objective:The knowledge of Mathematics is necessary for a better understanding of almost all the Engineering and Science subjects. Here our intention is to make the students acquainted with the concept of basic topics from Mathematics, which they need to pursue their Engineering degree in different disciplines.

Course Contents:Module I: Differential Calculus Successive differentiation, Leibnitzs theorem (without proof), Mean value theorem, Taylors theorem (proof), Remainder terms, Asymptote & Curvature, Partial derivatives, Chain rule, Differentiation of Implicit functions, Exact differentials, Tangents and Normals, Maxima Module II: Integral Calculus Fundamental theorems, Reduction formulae, Properties of definite integrals, Applications to length, area, volume, surface of revolution, Multiple Integrals-Double integrals, Applications to areas, volumes. Module III: Ordinary Differential Equations Formation of ODEs, Definition of order, degree & solutions, ODE of first order : Method of separation of variables, homogeneous and non homogeneous equations, Exactness & integrating factors, Linear equations & Bernoulli equations, General linear ODE of 2nd order, Solution of homogeneous equations, Operator method, Method of undetermined coefficients, Solution of simple simultaneous ODE.

Examination Scheme:Components Codes Weight age (%) CT 20 HA 10 S/V/Q 10 EE 60

Text & References:Text: Differential Calculus, Shanti Narain Integral Calculus, Shanti Narain References: Differential Equation, A.R.Forsyth Higher Engineering Mathematics, H.K. Dass Higher Engineering Mathematics, B.S Grewal Advance Engineering Mathematics, Kreyszig

APPLIED PHYSICS - ICourse Code: Course Objective:Aim of this course is to introduce the students to fundamentals of graduate level physics which form the basis of all applied science and engineering

BTMPH 10101

Course Contents:Module I. Simple harmonic motion equation and energy conservation, superposition of two SHMs, Lissajous figures, damped and forced oscillations equations, amplitude and frequency response, resonance, sharpness of resonance, equation of motion for plane progressive waves, superposition of waves, wave group Module II. Conditions of interference, division of wavefront, Fresnels biprism, division of amplitude, interference due to thin films, Newtons rings, Fresnel and Fraunhofer diffraction, Fraunhofer diffraction at a single and double slit, Transmission grating and its resolving power, Birefringence, Nicol prism, Production and analysis of plane, circularly and elliptically polarized light, Half and quarter wave plates, Optical rotation Module III. Cylindrical and Spherical Coordinates, Gradient of a scalar field, Divergence and curl of vector field Gausss law of electrostatics, Statements of Gauss divergence and Stokes theorem, Amperes law, Bio-Saverts law, Faradays laws of electromagnetic induction Module IV. Maxwells equations and their physical significance, displacement current, equation of continuity, Poynting vector and its physical significance, Electromagnetic wave propagation in free and dielectric media

Examination Scheme:Component Code Weightage Planned (%) CT 20 HA 10 S/V/Q 10 EE 60

CT: Class Test, HA: Home Assignment, S/V/Q: Seminar/Viva/Quiz, EE: End Semester Examination

Text & References: Waves & oscillation, A. P. French Physics of waves, W. C. Elmore & M. A. Heald Introduction to Electrodynamics, D. J. Griffith Electrodynamics, Gupta, Kumar & Singh Optics, A. K. Ghatak Engineering Physics, Satya Prakash

APPLIED CHEMISTRY- ICourse Code: Course Objective:Four basic sciences, Physics, Chemistry, Mathematics and Biology are the building blocks in engineering and technology. Chemistry is essential to develop analytical capabilities of students, so that they can characterize, transform and use materials in engineering and apply knowledge in their field. All engineering fields have unique bonds with chemistry whether it is Aerospace, Mechanical, Environmental and other fields the makeup of substances is always a key factor, which must be known. For electronics and computer science engineering, apart from the material, computer modeling and simulation knowledge can be inherited from the molecule designing. The upcoming field of technology like Nanotechnology and Biotechnology depends fully on the knowledge of basic chemistry. With this versatile need in view, course has been designed in such a way so that the student should get an overview of the whole subject starting from the very basic bonding mechanism to the application of materials.

BTMCY 10101

Course Contents:Module I: Chemical Bonding Types of bond: Ionic, Covalent and Co-ordinate bond; Fajans rule; ybridisation; H- bonding ; Valence bond and Molecular orbital theory for diatomic molecule. Module II: Organic Mechanism Electronegativity and dipole moment; Electron Displacement Effects: Inductive Effect; hyperconjugation effect; Mesomeric Effect; Electromeric Effects; Fission of covalent bonds; Intermediates of Organic reactions; Carbonium , Carbanion, Free Radical and Carbene; Types of organic reactions; Substitution , Elimination, Addition. Module III: Instrumental method for Analysis Introduction; Principles of spectroscopy; Laws of Absorbance; IR: Principles & Instrumentation; Application; UV: Principle, Instrumentation and Application; NMR Principle and Instrumentation; Application; Chromatography; GC: Principle, Instrumentation and Application; HPLC: Principle, Instrumentation and Application. Module IV: Thermodynamics Introduction; Terminology; First Law; Heat Capacity; Calculation of thermodynamic quantities; Adiabatic and Isothermal Process; Reversible and Irreversible Process; Second law of Thermodynamics; Standard State; Gilbbs Helmholtz equation; VantHoff Isotherm and Isochore; Maxwell Relation; Third law of Thermodynamics; Chemical Potential; Activity and Activity Coefficient; Coupled Reactions. Module V : Chemical Equilibrium Introduction ; Le Chateliers Principle; Equilibrium constant from Thermodynamic Constants; Acid-Base Concept; Weak acid and Weak base and their salts; Solubility Product; pH and pOH, Buffer Solution, Buffer Action.

Examination Scheme:Components Codes Weight age (%) CT 20 HA 10 S/V/Q 10 EE 60

Text and References:Text: Engineering Chmistry -Jain & Jain, Engineering Chmistry -Shashi Chawla References: Organic Mechanism-Morrison and Boyd Physical Chemistry-Puri Sharma and Pathania Organic Chemistry Vol-I IL Finar, Organic Chemistry Vol-II IL Finar Physical Chemistry Atkins Peter, Paula Julio A guide to mechanism in organic chemistry Peter Sykes.

Introduction to practical chemistry K.K.Sharma Concise Inorganic chemistry J.D. Lee

MANUFACTURING PROCESSCourse Code: Course Objective:The objective of Element of Mechanical Engineering is to familiarize students of all the disciplines of Engineering with an overview of Mechanical Engineering such as fundamental laws of thermodynamics, properties of steam and thermodynamics cycles, basic manufacturing processes, and basic concept of stress and strain.

BTMME 10101

Course Contents:

INTRODUCTION TO COMPUTERSCourse Code: Course Objective:The objective in this course module is to acquaint the students with the basics of computers and its architecture. It also includes coverage of the basic language i.e. C.

BTMCS 10101

Course Contents:Module I: Introduction Overview of Computer organization and historical perspective computer applications in various fields of science and management. Data representation: Number systems, character representation codes, Binary, hex, octal codes and their inter conversions. Binary arithmetic, Floating-point arithmetic, signed and unsigned numbers. Basic Operating Systems Concepts: Multiprogramming, Multitasking, Multiprocessing, Timesharing, Study of Operating Systems e.g. DOS, Windows Concepts of the finite storage, bits, bytes, kilo, mega and gigabytes. Concepts of character representation. Input, Output Devices. Storage devices: Primary, Secondary Module II: Introduction to Programming Concept of algorithms, Flow-charts, Data Flow diagrams etc. Concepts of structured, modular and object oriented programming. Merits and demerits. Program coding and compilation. Linking and execution. Different types of translators. Module III: Programming using C Example of some simple C program. Dissection of the program line by line. Concept of variables, program statements and function calls from the library (Printf for example) C data types, int, char, float etc.C expressions, arithmetic operation, relational and logic operations. C assignment statements, extension of assignment to the operations. C primitive input output using getchar and putchar, exposure to the scanf and printf functions. Module IV: Fundamental Features in C C Statements, conditional executing using if, else. Optionally switch and break statements may be mentioned. Concepts of loops, example of loops in C using for, while and do-while. Optionally continue may be mentioned.One dimensional arrays and example of iterative programs using arrays, 2-d arrays Use in matrix computations.Concept of Sub-programming, functions Example of functions. Argument passing mainly for the simple variables. Module V: Advanced features in C Pointers, relationship between arrays and pointers Argument passing using pointers Array of pointers. Passing arrays as arguments. Strings and C string library.Structures and Unions. Defining C structures, passing strings as argu

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