# Exponents and Powers: Definition of Powers and Exponents, Laws of Exponents (For CBSE, ICSE, IAS, NET, NRA 2022)

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**Exponents are powers** are the fundamentals of MathΥs. They are used to represent very large numbers or very small numbers in a simplified way.

**Exponents** are the repeated multiplication of any number. The number, 1,000, 000 can be written as:

, where 6 is the **power** of 10.

Thus, when 10 is multiplied 6 times we get 1,000, 000. It can be expressed using power as . 10 is the base and 6 is the exponent. It is read as β*10 raised to the power of 6*β . Hence, it is easy to express any integer as exponent with this method.

Exponents and Powers is an important topic for Class 7 and Class 8 students. Hence, they can learn the topic here in detail and clarify their doubts.

**Table of contents**:

- Definition
- Laws
- Multiplication
- Division
- Negative Exponent

- Rules
- Solved Questions
- Applications
- Video Lesson

## Definition of Powers and Exponents

The exponent is a simple but powerful tool. It tells us how many times a number should be multiplied by itself to get the desired result. Thus, any number βaβ raised to power βnβ can be expressed as:

Here *a* is any number and *n* is a natural number.

is also called the power of *a*.

βaβ is the base and βnβ is the exponent or index or power.

βaβ is multiplied βnβ times thereby exponentiation is the shorthand method of repeated multiplication.

## Laws of Exponents

The laws of exponents are demonstrated based on the powers they carry.

- Bases β multiplying the like ones β add the exponents and keep base same. (Multiplication Law)
- Bases β raise it with power to another β multiply the exponents and keep base same.
- Bases β dividing the like ones β βNumerator Exponent β Denominator Exponentβ and keep base same. (Division Law)

Let βaβ is any number or integer (positive or negative) and βmβ , βnβ are positive integers, denoting the power to the bases, then;

### Multiplication Law

As per the multiplication law of exponents, the product of two exponents with the same base and different powers equals to base raised to sum of the two powers or integers.

### Division Law

When two exponents having same bases and different powers are divided, then it results in base raised to difference of the two powers.

### Negative Exponent Law

Any base if has a negative power, then it results in reciprocal but with positive power or integer to the base.

## Exponents and Powers Rules

The rules of exponents are followed by the laws. Let us have a look on them with a brief explanation.

Suppose βaβ & βbβ are the integers and βmβ & βnβ are the values for powers, then the rules for exponents and powers are given by:

**i)**

As per this rule, if the power of any integer is zero, then the resulted output will be unity or one.

Example:

**ii)**

βaβ raised to the power βmβ raised to the power βnβ is equal to βaβ raised to the power product of βmβ and βnβ .

Example:

**iii)**

The product of βaβ raised to the power of βmβ and βbβ raised to the power βmβ is equal to the product of βaβ and βbβ whole raised to the power βmβ .

Example:

**iv)**

The division of βaβ raised to the power βmβ and βbβ raised to the power βmβ is equal to the division of βaβ by βbβ whole raised to the power βmβ .

Example:

## Exponents and Power Solved Questions

**Example 1: Write** **in exponent form**.

**Solution**:

In this problem 7s are written 8 times, so the problem can be rewritten as an exponent of 8.

**Example 2**: **Write below problems like exponents**:

**Solution**:

**Example 3: Simplify**

**Solution**:

Using Law:

can be written as

25 divided by 5.

=

= 125

## Exponents and Powers Applications

Scientific notation uses the power of ten expressed as exponents.

The distance between the Sun and the Earth is . The mass of the Sun is . The age of the Earth is years. These numbers are way too large or small to memorize in this way. With the help of exponents and powers these huge numbers can be reduced to a very compact form and can be easily expressed in powers of 10.

Now, coming back to the examples we mentioned above, we can express the distance between the Sun and the Earth with the help of exponents and powers as following:

Distance between the Sun and the Earth

Mass of the Sun:

Age of the Earth:

Question:

Expand the following using exponents

(i)

(ii)

Solution:

(i)

(ii)