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Logarithm Base

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Logarithm is an exponent that defines how many times a number can be multiplied to get another number. It is the power to which a number (the base) is raised to get another number. When talking about logarithms, there are terms you need to remember and be able to identify like the exponent and the base.

We are going to focus more on the bases of logarithms. Hence, we should be able to identify a base when we see it. Let's get familiar with the basic formula associated with logarithms and then identify the base.

*b* is the base, *y* is the exponent to which the base is raised and *X* is the result obtained.

It is also written as:

where log is short for logarithm.

If you have , 2 is the base, 3 is the exponent and 8 is the result obtained. It can also be written as . If we are able to identify the base in a logarithmic expression, we can deduce the meaning of a base.

Logarithm base is the subscript of the logarithm symbol (log). You can say that it is the number that carries or raises the exponent depending on the form of the expression ( or ). Let's take some examples to strengthen our understanding on identifying a base.

Identify the base in the following.

**Solution**

- The base here is 3. It is the subscript of the logarithm symbol log.
- The base here is 5. It is the number that raises the exponent 4.

The popular forms of logarithms are the common logarithm and natural logarithm. The common logarithm is in base 10 written as or just and the natural logarithm is in base e written as or . When solving common logarithms with base 10, it's best to use a calculator. The calculator has a log button that will give you the answer. You can try to do it without a calculator if the numbers are small and easy to calculate but if otherwise, reach out for your calculator.

Give the answers to the following.

This means that if you multiplying 10 in three places gives 1000 that is .

It is also possible to do this without a calculator because we can calculate that = 1000.b. log 20 = 1.3010c. log 8 = 0.9031For the natural logarithm in base e, the e is called Euler's number which is 2.71828. When you want to solve this, you use the button in your calculator to get the answer.

Let's see some more examples.

Give the answers to the following

a.

b.

c.

**Solution**

- To get the answer to , you'll need a calculator. You will need to press the button on the calculator and then 7.3. The answer will appear after that.

b. Using a calculator,

c. Using a calculator,

Aside from the common logarithm and natural logarithm with bases 10 and e, logarithms can also have any base. The base can be any number. For example,and are logarithms with different bases.

When you have logarithms with different bases, it means that you have a logarithmic equation or expression where the bases are of different numbers. The way to go about this is to use a formula called the** change of base formula. **The aim here is to make the different bases equal. That way, you will be able to get a solution easily. Let's take a look at what the change of base formula looks like.

The logarithmic rules we would normally use are the same rules for solving logarithmic base. Let's see some of those rules.

Simplify

**Solution**

The first thing is to change the base using the change of base formula. You can change the base to any number including base 10 and the natural logarithm e. You just have to make sure that they are both the same base. Doing this we will have:

We will use a calculator to solve the numerator and denominator to get:

Let's see more examples.

Solve

**Solution**

You will notice that there are different bases involved so we will use the change of base formula. We can change both base to 3 or 9 and you will still arrive at the same answer. Remember the aim is just to make sure that both bases are equal.

We will use the change of base formula on the right hand side. This means we are making the bases 3.

There is a logarithm law in the form . We will apply this law to the denominator present and we will have:

We will put the result "2" in the equation and continue solving.

There is another logarithm law in the form . If we apply this we will get:

Using the rule that if , then , our final answer will be:

Solve

**Solution**

The first thing is to make the bases the same. We can choose to make them both 9 or 3. Either way, we will arrive at the same answer. Let's make them both 3.

The change of base formula is:

We will use the change of base formula on the first term of the expression and we will get:

If you observe, you will see that you can simplify the denominator with a calculator or manually. You can tell that the result is 2 because 3 squared is 9. So, we will now have:

Let's multiply each term by 2

We can use the power logarithmic rule on the second expression which is

We will now have

We can use the addition rule here which is

Therefore

We will now take the anti log to get

What we simplify did here was to raise the base 3 to the power of 6.

The next and final step is to find x

Take the square root of both sides

Logarithms are sometimes expressed in a graphical form and the base of the logarithmic function can affect the outcome of the graph. What happens is that the bigger the base, the smaller the curve. In other words, the larger the base, the closer the curve gets to the y-axis.

Let's take an example

Plot the logarithmic expressions and observe the plot.

and

**Solution**

What you need to do is make a table for both expressions and plot the graph.

For

x | y |

1 | 0 |

2 | 1 |

4 | 2 |

For

x | y |

1 | 0 |

2 | 0.3 |

4 | 0.6 |

We will now plot the graph

You can see that is closer to the y axis.

- Logarithm base is either the subscript of the logarithm symbol (log) or the number that carries or raises the exponent depending on the from of the expression ( or ).
- To solve logarithms with different bases, you use the change of base formula which is
- The bigger the logarithm base, the smaller the curve on the graph. In other words, the larger the base, the closer the curve gets to the y-axis.

_{2 }4 is 2.

An example of a logarithm base function is:

y = log_{2} X.

The four laws of logarithm are:

- log
_{b }(x) + log_{b }(y) = log_{b }(x y) (product law) - log
_{b }(x) - log_{b }(y) = log_{b }(x/y)_{ }(division law) - log
_{b }(x^{n}) = n log_{b }(x) (power law) - log
_{b }(x) = log_{a}_{ }(x) / log_{a}_{ }(b) (change of base law)

^{y} = X or log_{a}(X) =y).

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