Thursday, 23 June 2016

INEQUALITIES





Introduction


An inequality says that two values are not equal. 

a b says that a is not equal to b

There are other special symbols that show in what way things are not equal.

a < b says that a is less than b
a > b says that a is greater than b
(those two are known as strict inequality) 

a b means that a is less than or equal to b
a b means that a is greater than or equal to b.





Solving Inequalities
Sometimes we need to solve Inequalities like these:
Symbol
Words
Example
>
greater than
x + 3 > 2
<
less than
7x < 28
greater than or equal to
5 ≥ x - 1
less than or equal to
2y + 1 ≤ 7

Solving

Our aim is to have x (or whatever the variable is) on its own on the left of the inequality sign:
Something like:x < 5
or:y ≥ 11
We call that "solved".
Examples Solving Inequalities





References:


Tuesday, 21 June 2016

LOGARITHMS

WHAT IS LOGARITHM?

Introduction


A logarithm is the power to which a number must be raised in order to get some other number.

For example, the base ten logarithm of 100 is 2, because ten raised to the power of two is 100:
log 100 = 2
because
102 = 100


This is an example of a base-ten logarithm. We call it a base ten logarithm because ten is the number that is raised to a power. The base unit is the number being raised to a power. There are logarithms using different base units. If you wanted, you could use two as a base unit. 


For instance, the base two logarithm of eight is three, because two raised to the power of three equals eight: 
log2 8 = 3
because

23 = 8 

Law of Logarithm



Example



What is a logarithm?

Logarithms are another way of thinking about exponents.

Both equations describe the same relationship between the numbers start color blueD, 2, end color blueDstart color greenE, 4, end color greenE, andstart color goldD, 16, end color goldD, where start color blueD, 2, end color blueD is the basestart color greenE, 4, end color greenE is the exponent, and start color goldD, 16, end color goldD is the power.

4
start color blueD, 2, end color blueD, start superscript, start color greenE, 4, end color greenE, end superscript, equals, start color goldD, 16, end color goldD

24=16log2(16)=4.


The difference is that while the exponential form isolates the power, 
start color goldD, 16, end color goldD, the logarithmic form isolates the exponent, start color greenD, 4, end color greenD.
Here are more examples of equivalent logarithmic and exponential equations.
Logarithmic formExponential form
log, start subscript, start color blueD, 2, end color blueD, end subscript, left parenthesis, start color goldD, 8, end color goldD, right parenthesis, equals, start color greenD, 3, end color greenDstart color blueD, 2, end color blueD, start superscript, start color greenD, 3, end color greenD, end superscript, equals, start color goldD, 8, end color goldD
log, start subscript, start color blueD, 3, end color blueD, end subscript, left parenthesis, start color goldD, 81, end color goldD, right parenthesis, equals, start color greenD, 4, end color greenDstart color blueD, 3, end color blueD, start superscript, start color greenD, 4, end color greenD, end superscript, equals, start color goldD, 81, end color goldD
log, start subscript, start color blueD, 5, end color blueD, end subscript, left parenthesis, start color goldD, 25, end color goldD, right parenthesis, equals, start color greenD, 2, end color greenDstart color blueD, 5, end color blueD, start superscript, start color greenD, 2, end color greenD, end superscript, equals, start color goldD, 25, end color goldD

Definition of a logarithm

Generalizing the examples above leads us to the formal definition of a logarithm.
logb(a)=cbc=a
Both equations describe the same relationship between start color goldD, a, end color goldDstart color blueD, b, end color blueD, and start color greenE, c, end color greenE:
  • start color blueD, b, end color blueD is the start color blueD, b, a, s, e, end color blueD,
  • start color greenE, c, end color greenE is the start color greenE, e, x, p, o, n, e, n, t, end color greenE, and
  • start color goldD, a, end color goldD is the start color goldD, p, o, w, e, r, end color goldD.
In logarithm form, this is also called the start color goldD, a, r, g, u, m, e, n, t, end color goldD.



References: