#### Logarithm equation

## How do you check logarithmic equations?

To solve a logarithmic equation, rewrite the equation in exponential form and solve for the variable. Example 1: Solve for x in the equation Ln(x)=8. Check: You can check your answer in two ways. You could graph the function Ln(x)-8 and see where it crosses the x-axis.

## How do you solve logarithmic equations step by step?

Solving Logarithmic EquationsStep 1: Use the rules of exponents to isolate a logarithmic expression (with the same base) on both sides of the equation.Step 2: Set the arguments equal to each other.Step 3: Solve the resulting equation.Step 4: Check your answers. Solve. Step 1: Use the properties of the logarithm to isolate the log on one side.

## What is a logarithm in math?

In mathematics, the logarithm is the inverse function to exponentiation. That means the logarithm of a given number x is the exponent to which another fixed number, the base b, must be raised, to produce that number x.

## What are the logarithm rules?

Basic rules for logarithms

Rule or special case | Formula |
---|---|

Product | ln(xy)=ln(x)+ln(y) |

Quotient | ln(x/y)=ln(x)−ln(y) |

Log of power | ln(xy)=yln(x) |

Log of e | ln(e)=1 |

## Can the base of a log be negative?

While the value of a logarithm itself can be positive or negative, the base of the log function and the argument of the log function are a different story. The argument of a log function can only take positive arguments. Negative numbers, and the number 0, aren’t acceptable arguments to plug into a logarithm, but why?

## How many laws of logarithm are there?

seven

## What is logarithm used for?

Using Logarithmic Functions Much of the power of logarithms is their usefulness in solving exponential equations. Some examples of this include sound (decibel measures), earthquakes (Richter scale), the brightness of stars, and chemistry (pH balance, a measure of acidity and alkalinity).

## What is a natural logarithm in math?

The natural logarithm of a number is its logarithm to the base of the mathematical constant e, where e is an irrational and transcendental number approximately equal to 2.718281828459. The natural logarithm of x is the power to which e would have to be raised to equal x.