Factors of 10x : 2, 5, 10, x, 2x, 5x, 10x
Prime Factors
of 12 : 2, 3
(See also prime numbers.)
To factor
is to find all of the factors of an expression or a number.
Examples:
factor 50:
50 = 2 
5
5
factor x3 + 4x2 +3x:
x3 + 4x2 +3x = x(x + 1)(x
+ 3)
Some special factors:
a2 ± 2ab + b2 = (a
± b)2
a3 ± 3a2b + 3ab2
± b3 = (a ± b)3
a2 - b2
= (a - b)(a
+ b)
a3 ± b3 = (a ± b)(a2
± ab + b2)
Area
| of a square | A = s2 | s = side l = length w = width b = base h = height r = radius |
||
| of a rectangle | A = lw | |||
| of a triangle | A = | 1 bh 2 |
||
| of a circle | A =  r2 |
|||
Perimeter
| of a square | P = 4s |
| of a rectangle | P = 2l +2w |
Circumference
| of a circle | C = 2r |
Volume
| of a cube | V = | s3 | s = side l = length w = width b = base h = height r = radius |
|
| of a box | V = | lwh | ||
| of a cylinder | V = | r2h |
||
| of a cone | V = | 1r2h 3 |
||
| of a sphere | V = | 4r3 3 |
Examples:
| Fractions: | 1, 2 |
a, b |
4, d |
x + 3 y |
|
| Numerators: | 1, | a, | 4, | x + 3 | |
| Denominators: | 2, | b, | d, | y | (b, d, y 
0) |
When the denominator of a fraction is zero, the fraction is undefined.
| Equivalent Fractions: | 1 2 |
= | 3 6 |
= | 2x 4x |
= | x + 5 2(x + 5) |
| 1 is in the lowest terms
among its equivalent fractions. 2 |
|||||||
| Improper Fractions: | 5, 3 |
9, 4 |
26, 7 |
8 2 |
denominator. It may be converted to a mixed number
or a whole number:
| 1 | 2, 3 |
2 | 1, 4 |
3 | 5, 7 |
4 |
| Proper Fractions: | 4, 5 |
1, 6 |
7, 9 |
11 24 |
| Complex Fractions: | 2 3 4 5 |
, | x + 1 x 3 |
, | 2 9 5 |
, | 2 + 1 x x |
| 10 12 |
, | 3(x + 1) x |
, | 2 45 |
, | 2x + 1 x2 |
Examples:
y = 3x + 1
y = sin x
x is called the independent variable and y as a function of x, is called the dependent variable. The set of all the x values that makes the function meaningful is called the domain and the set of all the possible y values of the function is called the range.
Thus, the domain of y = 3x +1 is the real line and the range of y = 3x +1 is the real line.
| The domain of y = sin | 1 x |
is all real x except x = 0 and the range is -1 < y < 1. |
since 9 = 3
3 and 15 = 3
5
G.C.F. of
(7, 6) = 1
since 7 = 7 and 6 = 2
3
When there is no common factor then G. C. F. is 1.
| center: | (0, 0) |  |
||||
| transverse (real) axis: | 2a | |||||
| conjugate axis: | 2b | equation: |  |
= 1 | ||
| vertices: | V1
(a, 0) V2 (-a, 0) |
|||||
| asymptotes: | y = | b a |
x | |||
| y = | -b a |
x | ||||
ai where a is a real number and i =
Examples:
2i, -3.4i, 
( = 
i
) are imaginary numbers.
(See also number and complex
number.)
| 4 is greater than 3 | 4 > 3 |
| x is greater than or equal to 7 | x
7 |
| 2 is less than 5 | 2 < 5 |
| y is less than or equal to 1 | y 
1 |
If x > y, then:
| cx > cy 4x > 4y |
when c > 0 |
| cx < cy -5x < -5y |
when c < 0 |
| a+ x > a+ y | for any a |
We may use these properties to solve inequalities like we solve equations.
Solve:
2x > 5x + 6
-3x > 6
x < -2 (solution)
The y-intercept is the point where a curve or a line meets the y-axis.
since 6 = 2
3 and 9 = 3
3 L.C.M. = 2
3
3 = 18
Find the L.C.M.
of (7, 15, 21)
since 7 = 7, 15 = 3
5 and 21 = 3
7
L.C.M. = 7
3
5 = 105
Example:
Find the least common denominator (L.C.D.)
of:
| 1 2 |
, | 3 4 |
, | 1 6 |
||
| The L.C.D. of | 1 2 |
, | 3 4 |
, | 1 6 |
= L.C.M. of (2, 4, 6) = 12. |
Horizontal Line 
|
Vertical Line 
|
Perpendicular Lines 
|
Intersecting Lines 
|
Parallel Lines 
|
y = logax where a > 0 and a
1 and x and y are related as:
ay = x
Some properties
of logarithms:
loga1 = 0
loga(xz) = logax + logaz
| loga( | x z |
) = logax - logaz |
(See also exponential function and function.)
Examples:
| 3 | 2 7 |
, | 1 | 4 11 |
, | 2 | 1 2 |
are mixed numbers. |
(See also fraction.)
| half of n | 1 2 |
n |
| 4 times 6 | (4)(6) | |
| 3 multiplied by x | 3x | |
| the product of 7 and y | 7y | |