Log of Zero

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In Mathematics, most of the researchers used logarithms to transform multiplication and division problems into addition and subtraction problems before the process of calculus has been found out. Logarithms are continuously used in Mathematics and Science as both subjects contend with large numbers. Here we will discuss the log 0 value (log 0 is equal to not defined) and the method to derive the log 0 value through common logarithm functions and natural logarithm functions.

Logarithm Functions

Before deriving the Log 0 value, let us discuss logarithm functions and their classifications. A logarithm function is an inverse function to an exponential. Mathematically logarithm function is defined as:

If Logab = x, then ax =b

Where, a

Note= The variable “a” should always be a positive integer and not equal to 1.

Classification of Logarithm Function

Common logarithm functions – Common logarithm function is the logarithm function with base 10 and is denoted by log10 or log.

F(x) = log10 x

Natural logarithm functions – Natural logarithm functions are the logarithm functions with base e and is denoted by loge

F(x) = loge x

Log functions are used to find the value of a variable and eliminate the exponential functions. Tabular data will be updated soon.

What is the Value of Log 0? How Can it be Derived?

Here, we will discuss the procedure to derive the Log 0 value.

The log functions of 0 to the base 10 is expressed as Log10 0

On the basis of the logarithm function,

Base = 10 and 10x = b

As we know,

The logarithm function logab can only be defined if b > 0, and it is quite impossible to find the value of x if ax = 0.

Therefore, log0 10 or log of 0 is not defined.

The natural log function of 0 is expressed as loge 0. It is also known as log function 0 to the base e. The representation of natural log of 0 is Ln

If ex = 0

No number can agree with the equation when x equals to any value.

Hence, log 0 is equal to not defined.

Loge 0 = In (0) = Not defined

Value of Log of 0, and its Calculation to the Base 10

The inverse function to the exponentiation is generally regarded as the Logarithm, in Mathematics. Logarithm shows how much the base of the b must be raised to meet the exponent of the number x. In simple terms, the logarithm counts how many times the same factor occurs in the repeated multiplication.

Let us take an example of the number 1000. It can be formed by multiplying the number 10 with itself three times. 1000 = 10 × 10 × 10 = 1000, that is to say, 103. It means for 1000 the logarithm base is 3. It can be denoted as log10(1000) = 3. 1000 is the base here and the exponent 3 is the log.

logb(x) shows the logarithm for the x to the base b, it can also be shown without the use of brackets or parenthesis logbx. or sometimes even without the base log x. Logarithms are of great use in mathematics, science, and technology, and they are used for various reasons and purposes. 

Logarithm Value Table from 1 to 10

Logarithm Values to the Base 10 are:

Ln Values table from 1 to 10

Logarithm Values to the Base e are:

Solved Example

1. Solve for y in log₂ y =6

Solution: The logarithm function of the above function can be written as 26 = y

                  Hence, 25 =2 x 2 x 2 x 2 x 2 x 2 =64 or Y =64

2. Find the value of x such that log x  81 =2

Solution:

Given that, log x  81=2

On the basis of Logarithm definition

If logx b=x

ax  = b – (1)

a=x, b= 81, x =2

Substituting the value in equation (1), we get

x2 =81

Taking square root on both sides we get,

x = 9

Therefore, the value of x = 9

Fun Facts

• The logarithm with base 10 is known as common or Briggsian, logarithms and can be written as log n. They are usually written as without base.

• Concept of Logarithm was introduced by John Napier in the 17th century

• The logarithm is the inverse process of exponentiation.

• The first man to use Logarithm in modern times was the German   Mathematician, Michael Stifel (around 1487 -1567).

• According to Napier, logarithms express ratios.

• Henry Briggs proposed to make use of 10 as a base for logarithms.

Quiz Time

1. Which of the following is incorrect?

a. Log10 = 1

b. Log( 2+3) = Log( 2×3)

c. Log10 1 = 0

d. Log ( 1+2+3) = log 1 + log 2+ log 3

2. If log \[ \frac{a}{b} \] + log \[ \frac{b}{a} \] = log( a+b), then:

a. a + b=1

b. a – b = 1

c. a = b

d. a² – b² = 1

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Categories: Math