Powers and exponents are terms that can cause confusion, as sometimes they are used interchangeably. However, in this article, we will explain their official definition and the meaning behind them, as well as the different laws that you can use to solve problems involving powers in Algebra using practical examples.
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Sign up for freeWhat is \(x^3\) when \(x = 5\)?
Simplify \(25^0\).
What is \( x^{-3}\) equivalent to?
What law of exponents are you using to simplify \((2^2)^4\)?
How do you correctly multiply \(x^2\) and \(x^7\) together?
What is \(2^2 3^3\) equal to?
How do you correctly simplify \( \dfrac{x^5}{x^3}\)?
What law of exponents is used in \((xy)^n =x^ny^n\)?
What law of exponents is this: \( \left(\dfrac{x}{y}\right)^n = \dfrac{x^n}{y^n} \)?
What is \(x^3\) when \(x = 5\)?
Simplify \(25^0\).
What is \( x^{-3}\) equivalent to?
What law of exponents are you using to simplify \((2^2)^4\)?
How do you correctly multiply \(x^2\) and \(x^7\) together?
What is \(2^2 3^3\) equal to?
How do you correctly simplify \( \dfrac{x^5}{x^3}\)?
What law of exponents is used in \((xy)^n =x^ny^n\)?
What law of exponents is this: \( \left(\dfrac{x}{y}\right)^n = \dfrac{x^n}{y^n} \)?
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Team Powers and Exponents Teachers
Powers are mathematical expressions in the form , where x is the base and n is the exponent. Powers represent repeated multiplication, where the base is the number or variable that is multiplied repeatedly, and the exponent indicates how many times to multiply the base by itself.
From the above definition, let's identify each part of a power and its meaning:
Parts of a power, StudySmarter Originals
The expression can be read as x to the power. The base (x) is written in full size, and the exponent (n) is written smaller and at the top of the line using superscript (if you are typing it on a computer). For example, is read as x to the second power, or x squared, which in practice means that the value of x is multiplied by itself as many times as the value of the exponent, which in this case is 2, like this:
.
Remember: The value of the exponent tells you how many times the base will be repeated in the multiplication. If a number or variable has no exponent, then it is assumed to be 1. For example, . Also, any number or variable with an exponent of 0 (zero) is equal to 1. For example, .
Here are some examples of powers, including how you can read the expressions and their meaning:
| Power | In words | Meaning |
| Three to the first power | ||
| Five to the second power, or five squared | ||
| Two to the third power, or two cubed | ||
| Seven to the fourth power | ||
| Ten to the fifth power | ||
| x to the nth power | x is repeated as many times as the value of n |
To solve powers, you need to consider two different situations:
1. If the base is a number: In this case, all you need to do is multiply the base by itself as many times as the value of the exponent to find the solution.
Solve
2. If the base is a variable: In this case, you need to substitute the variable with a value and then proceed as before.
Solve , when x = 2
The different laws of exponents that you can use to solve problems in Algebra are as follows:
| Name | Law | Description | Example |
| One as an exponent | Any number or variable raised to the first power equals the same number or variable. | ||
| Zero as an exponent | Any number or variable raised to zero power equals 1. | ||
| Negative exponent | Any number or variable raised to a negative exponent equals its reciprocal, which is 1 over the same number or variable with a positive exponent. | ||
| Power of a Power | If you have a power raised to another power, you can simplify this expression by multiplying the exponents. | ||
| Product | Same base | If you have the product of two powers with the same base, then you can combine them by adding the exponents together. | |
| Different base | If you have the product of two powers with different bases and exponents, then you need to solve each power separately, and then multiply the results together. | ||
| Quotient | If you have the quotient of two powers with the same base, you can combine them by subtracting the exponent in the numerator minus the exponent in the denominator. | ||
| Power of a Product | If you have the power of a product, then you can distribute the exponent to each factor. | ||
| Power of a quotient | If you have the power of a quotient, then you can distribute the exponent to the numerator and the denominator. |
Sometimes you will need to use more than one law of exponents to be able to solve more complex problems:
1. Evaluate or simplify
using the quotient law
using the negative exponent law
2. Evaluate or simplify
using the negative exponent law , flip the fraction
using the power of a quotient law , distribute the exponent
using the quotient law
You must be thinking, powers and exponents are very interesting, but where and when would I need to used them? Let's give you an idea of the diverse applications of powers and exponents in real-life.
Powers and exponents are used in many areas, for example:
Computer games physics is another application of powers and exponents, helping to calculate movement, interaction between objects and other games dynamics.
The capacity of computer memory is also represented using powers and exponents.
Architecture uses powers and exponents to specify the scale of the models created by an architect in comparison to the size of the structure or building in real-life.
Other fields where powers and exponents are used include economics, accounting and finance, among others.
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What are powers and exponents?
Powers are mathematical expressions in the form xⁿ, where x is known as the base and n is the exponent. Powers represent repeated multiplication, where the base is the number or variable that is multiplied repeatedly, and the exponent indicates how many times to multiply the base by itself.
How do you solve exponents and powers?
To solve powers, consider if the base is a number or a variable. If the base is a number, multiply the base by itself as many times as the value of the exponent to find the solution. If the base is a variable, substitute the variable with a value, and then proceed as before.
What are examples of powers and exponents?
Examples of powers include: 2³ and 5² .
What are the laws of exponents?
The laws of exponents are as follows:
a) Same base: If you have the product of two powers with the same base, then you can combine them by adding the exponents together.
b) Different base: If you have the product of two powers with different bases and exponents, then you need to solve each power separately, then multiply the results together.
How do you multiply exponents with different bases and powers?
How to multiply exponents with different bases and powers: if you have the product of two powers with different bases and exponents, then you need to solve each power separately, then multiply the results together.
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