Basic Logarithms

A way to Undo exponents

Many things we do in mathematics involve

undoingan operation.

Subtraction is the

inverse of addition

When you were in grade school, you probably learned about subtraction this way.

2 + = 8

7 + = 10

Then one day your teacher introduced you to a new symbol

─

to undo addition

3 + = 10

Could be written

10 ─ 3 =

8 – 2 =

8 – 2 =

2 + ? = 8

8 – 2 =

2 + 6 = 8

8 – 2 = 6

2 + 6 = 8

The same could be said about division

÷

40 ÷ 5 =

40 ÷ 5 =

5 x ? = 40

40 ÷ 5 =

5 x 8 = 40

40 ÷ 5 = 8

5 x 8 = 40

Consider √49

= ?49

= ?

?2 = 4949

= ?

72 = 4949

= 7

72 = 49

49

49

Exponential Equations:

5? = 25

Exponential Equations:

52 = 25

Logarithmic Form of 52 = 25 is

log525 = 2

log

525 = ?

log

525 = ?

5? = 25

log

525 = ?

52 = 25

log

525 = 2

52 = 25

Try this one…

log

749 = ?

log

749 = ?

7? = 49

log

749 = ?

72 = 49

log

749 = 2

72 = 49

and this one…

log

327 = ?

log

327 = ?

3? = 27

log

327 = ?

33 = 27

log

327 = 3

33 = 27

Remember your exponent rules?

70 = ?

50 = ?

Remember your exponent rules?

70 = 1

50 = 1

log

71 = ?

log

71 = ?

7? = 1

log

71 = ?

70 = 1

log

71 = 0

70 = 1

Keep going…

log

31 = ?

log

31 = ?

3? = 1

log

31 = ?

30 = 1

log

31 = 0

30 = 1

Remember this?

1/25 = 1/ 52 = 5-2

log

5( )= ?25

1

5? = 1/25log

5( )= ?25

1

5-2 = 1/25log

5( )= ?25

1

5-2 = 1/25log

5( )= -225

1

Try this one…

log

3( )= ?81

1

3? =log

3( )= ?81

1

81

1

3-4 =log

3( )= ?81

1

81

1

3-4 =log

3( )= -481

1

81

1

Let’s learn some new words.

When we write log

5 125

5 is called the base125 is called the argument

When we write log

2 8

The base is ___The argument is ___

When we write log

2 8

The base is 2The argument is 8

Back to practice…

log

101000=?

log

101000=?

10?=1000

log

101000=?

103=1000

log

101000=3

103=1000

And another one

log

10( )=?100

1

log

10( )=?

10?= 100

1100

1

log

10( )=?

10-2= 1001

100

1

log

10( )=-2

10-2= 1001

100

1

log10

is used so much that we leave

off the subscript (aka base)

log10

100 can be written log 100

log

10000=?

log

10000=?

10?=10000

log

10000=?

104=10000

log

10000= 4

104=10000

And again

log

10 = ?

log

10 = ?

10?=10

log

10 = ?

101=10

log

10 = 1

101=10

What about log 33?

What about log 33?We know 101 = 10

and 102 = 100

since 10 < 33 < 100we know

log 10 < log 33 < log 100

Add to log 10 < log 33 < log 100

the fact that log 10 = 1

and log 100 = 2

to get

1 < log 33 < 2

A calculator can give you an approximation of log 33. Look for the log key to find out… (okay, get it out and try)

log 33 is approximately 1.51851394

Guess what log 530 is close to.

100 < 530 < 1000 solog 100 < log 530 < log 1000and thus2 < log 530 < 3

Your calculator will tell you that log 530 ≈ 2.72427….

Now for some practice with variables. We’ll be solving for x.

log416 = x

log416 = x

4? = 16

log416 = x

42 = 16

log416 = x

x=2 42 = 16

Find x in this example.

log8x = 2

log8x = 2

82 = ?

log8x = 2

82 = 64

log8x = 2

x=64 82 = 64

Find x in this example.

logx36 = 2

logx36 = 2

x2 = ?

logx36 = 2

x2 = 36

logx36 = 2

x= 6 x2 = 36

We need some rules since we want to stay in real number world.

Consider logbase

(argument) = number

The base must be > 0 The base cannot be 1 The argument must be > 0

Why can’t the base be 1?

14=1 110=2 That would mean

log11=4

Log11=10

That would be ambiguous, so we just don’t let it happen.

Why must the argument be > 0?

52=25 and 25 is positive 50=1 and 1 is positive 5-2 = 1/25 and that’s positive too Since 5 to any power gives us a positive

result, the argument has to be a positive number.