Mathematics Revision Guides – Indices, Surds and Functions Page 1 of 12 Author: Mark Kudlowski M.K. HOME TUITION Mathematics Revision Guides Level: AS / A Level AQA : C1 Edexcel: C1 OCR: C1 OCR MEI: C1 INDICES, SURDS AND FUNCTIONS (Revision) Version: 2.4 Date: 21-10-2014
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Mathematics Revision Guides – Indices, Surds and Functions Page 1 of 12
Author: Mark Kudlowski
M.K. HOME TUITION
Mathematics Revision Guides
Level: AS / A Level
AQA : C1 Edexcel: C1 OCR: C1 OCR MEI: C1
INDICES, SURDS AND FUNCTIONS
(Revision)
Version: 2.4 Date: 21-10-2014
Mathematics Revision Guides – Indices, Surds and Functions Page 2 of 12
Author: Mark Kudlowski
INDICES (Including revision from GCSE)
The basic laws of indices are as follows, applicable to all positive numbers a.
Multiplication: Addition of indices corresponds to multiplication of actual numbers.
nmnm aaa
Example (1): 52323 2222
, or 8 4 = 32.
32121
3
2
3
2
3
2
3
2
, or 27
8
9
4
3
2 .
Division: Subtraction of indices corresponds to division of actual numbers.
n
mnm
a
aa
Example (2):
2
1
313 5
5
55
, or .255
125
Brackets: When we multiply indices, we take a "power of a power".
nmmn aa
Example (3): 632)32( 333 , or 9
3 = 729.
Mathematics Revision Guides – Indices, Surds and Functions Page 3 of 12
Author: Mark Kudlowski
Negative Indices.
Any number raised to a negative power is the reciprocal of the same number raised to the
corresponding positive power.
m
m
aa
1
Example (4): 3
3
2
12
, or 8
1.
2
2
44
1
or 16
Here we convert the expression with a negative power to an expression with a positive power by
turning the original fraction upside down.
22
2
5
5
2
, or 4
25.
Zero index: Any positive number raised to the zero power is equal to 1.
10 a
Example (5): 1100
Power of one: Any positive number raised to the power of 1 is simply the number itself.
aa 1
Example (6): 881
One to any power: The number 1 raised to any power is equal to 1.
11 n
Example (7): 1112
Mathematics Revision Guides – Indices, Surds and Functions Page 4 of 12
Author: Mark Kudlowski
Fractional Indices – Roots.
Any positive number raised to the reciprocal of a power m is equivalent to the mth
root of that number.
m aa m 1
Examples (8): 1616 21
or 4.
3 12512531
or 5.
Harder Fractional and Negative Indices.
nm
a is the same as na1
raised to the power of m, as the bracket laws (“power of a power”) show.
mnnm
aa1
Examples (9): 65
64 is the same as 5)64( 6
1
- here it is 52 or 32.
64
27
4
3
16
9
16
9
16
9333
21
23
nm
a
is the same as the reciprocal of na1
raised to the power of m, as the bracket and reciprocal laws
above show.
mnn
m
nm
aaa
1
11
Examples (10):
10
1
100
1
100
1100
2
1
2
1
;
27
1
3
1
81
1
81
1
81
181
33
4
3
4
1
4
3
4
3
25
16
5
4
125
64
125
64
64
12522
3
3
2
3
2
Mathematics Revision Guides – Indices, Surds and Functions Page 5 of 12
Author: Mark Kudlowski
Some questions will ask for variations on the above rules, such as combining regular and index
arithmetic.
Examples (11): Simplify i) xx 32 2
3
and ii) 23 218 xx
.
In i) we multiply the numbers and add the powers:
xx 32 2
3
2
1
2
3
32 xx 26x .
In ii) we divide the numbers and subtract the powers:
2
3
2
18
x
x
2
3
2
18
x
x =
59 x or 5
9
x
Other questions might ask for an unknown power or base:
Examples (12): Solve i) 2x =
321 and ii) x
-½ = 7.
In i) we know that 32 = 25, and using
m
m
2
12
, we deduce that x = -5.
In ii), squaring both sides gives x-1
= 49 and hence 491x .
Still other questions might have a mixture of bases:
Examples (13): Simplify i)33
39 2
1
ii) 3
2
5
25 and iii)
3
1
2
1
84
161
2
The first step when dealing with this type of question is to reduce all terms in the expression to the
same base. For example, 23 42
is definitely not 85 !
In i) we use 9 =32 to rewrite the expression as 332 33 2
1
37 33
103 .
In ii), we use 25 =52 :
3
22
5
5 3
4
5
5
75 .
In iii), we use 4 = 22 , 8 =2
3 and 16 = 2
4 :
31
21
84
161
2
3
121
312
24
22
2
13
8
22
2
62 .
Mathematics Revision Guides – Indices, Surds and Functions Page 6 of 12
Author: Mark Kudlowski
SURDS (Revision)
A surd is a mathematical expression that includes irrational roots in it, usually square roots.
The following rules apply to surds, providing we restrict ourselves to real square roots, i.e. those of
positive numbers.
1) When a and b are both positive, abba ; 2abba .
Examples (14) : Express the following as the square root of a single number:
i) 32 ; ii) 82
i) Since 632 , 632 .
ii) Similarly 41682 . Here, two surds produce an integer when multiplied
Example (15) : Express 32 as the square root of a single number:
23232 = 18 .
We must square the 3 before enclosing it in the square root sign; 32 is definitely not 6 .
We could alternatively re-express 3 as 9 and treat the sum as 1892 .
Examples (16) : Express the following in the form ba where a and b are integers and a is as large
as possible: i) 48 ; ii) 50 ; iii) 452
This time, it is a matter of finding the largest perfect square factor of the number inside the square root
sign.
i) Of the factors of 48, the largest perfect square is 16, so we can re-express as follows :
3431631648
ii) The largest square factor of 50 is 25, so 2522522550 .
iii) The expression 452 can be simplified further because 45 has a factor of 9:
56592592452 .
Mathematics Revision Guides – Indices, Surds and Functions Page 7 of 12
Author: Mark Kudlowski
2) When a and b are both positive, b
a
b
a ; 2b
a
b
a ;
b
a
b
a 2
.
Examples (17): Express the following as the square root of a single number:
i) 5
15; ii)
3
27
i) We replace the two separate square root signs with a single one around the whole fraction:
35
15
5
15 ;
ii) We do the same here: 393
27
3
27 . Again the result comes out as an integer.
Example (18): Express i) 2
20 as the square root of a single number.
54
20
2
20
Here, the 2 must first be squared before enclosing it in the square root sign;
2
20is definitely not 10 . (This case often crops up when solving quadratic equations).
We could alternatively re-express 2 as 4 and treat the sum as
54
20
4
20
2
20 .
Again, we could “spot the square factor” as in Examples (16); 52
52
2
54
2
20
.
Mathematics Revision Guides – Indices, Surds and Functions Page 8 of 12
Author: Mark Kudlowski
Expansion of surd expressions.
Surd expressions can be expanded like other algebraic expressions.
Examples (19): Expand and simplify the following :