What is the Cube Root of…

The following reference posts shares the cube roots of the most often searched values.

What is a cube root?

The cube root of a number is the value that produces that number when cubed.

For example, the cube root of 64 is 4 because 4^3 (4x4x4) equals 64.

What is the Cube Root of 216?

The cube root of 216 is 6 because 6x6x6=216

What is the Cube Root of 343?

The cube root of 343 is 7 because 7x7x7=343

What is the Cube Root of 512?

The cube root of 512 is 8 because 8x8x8=512

What is the Cube Root of 729?

The cube root of 729 is 9 because 9x9x9=729

What is the Cube Root of 1000?

The cube root of 1000 is 10 because 10x10x10=1000

What is the Cube Root of 1331?

The cube root of 1331 is 11 because 11x11x11=1331

What is the Cube Root of 1728?

The cube root of 1728 is 12 because 12x12x12=1728

What is the Cube Root of 2196?

The cube root of 2196 is 13 because 13x13x13=2196

What is the Cube Root of 2744?

The cube root of 2744 is 14 because 14x14x14=2744

What is the Cube Root of 3375?

The cube root of 3375 is 15 because 15x15x15=3375

What is the Cube Root of 4096

The cube root of 4096 is 16 because 16x16x16=4096

What is the Cube Root of… (Special Cases)

What if a cube root is not a whole number?

If a number is not a perfect cube, it’s cube root will be a decimal.

What is the Cube Root of 2?

The cube root of 2 is approximately 1.26 because 1.26x1.26x1.26 ≈ 2

What is the Cube Root of 3?

The cube root of 3 is approximately 1.44 because 1.44x1.44x1.44 ≈ 3

What is the Cube Root of 4?

The cube root of 4 is approximately 1.59 because 1.59x1.59x1.59 ≈ 4

What is the Cube Root of 9?

The cube root of 9 is approximately 2.08 because 2.08x2.08x2.08 ≈ 9

What is the Cube Root of 16?

The cube root of 16 is approximately 2.52 because 2.52x2.52x2.52 ≈ 16

What is the Cube Root of 81?

The cube root of 81 is approximately 4.33 because 4.33x4.33x4.33 ≈ 81

Learn How to Graph Cube Roots and Cubic Functions:

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Need Practice Finding Cube Roots?

Click the link below to download your free perfect cubes and cube roots practice worksheet:

PDF: Perfect Cubes and Cube Roots Practice Worksheet

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Learn How to Multiply Radicals and How to Multiply Square Roots in 3 Easy Steps (Free Worksheet Included)

Learn How to Multiply Radicals (and How to Multiply Square Roots) in 3 Easy Steps

Before you learn how to multiply radicals and how to multiply square roots, you need to make sure that you are familiar with the following vocabulary terms:

Radical vs. Radicand

The radical is the square root symbol and the radicand is the value inside of the radical symbol. The radicand can include numbers, variables, or both.

The Multiplication Property of Square Roots

The key to learning how to multiply radicals is understanding the multiplication property of square roots.

The property states that whenever you are multiplying radicals together, you take the product of the radicands and place them under one single radical.

For example, radical 5 times radical 3 is equal to radical 15 (because 5 times 3 equals 15).

How to Multiply Radicals and How to Multiply Square Roots Example

Now let’s take a look at an example of how to multiply radicals and how to multiply square roots in 3 easy steps.

Problem:

Step One: Simplify the Square Roots (if possible)

In this example, radical 3 and radical 15 can not be simplified, so we can leave them as they are for now.

Step Two: Multiply the Radicands Together

Now you can apply the multiplication property of square roots and multiply the radicands together. In this case, radical 3 times radical 15 is equal to radical 45 (because 3 times 15 equals 45).

Step Three: Simplify the Result (if possible)

The third and final step is to simplify the result if possible.

Can radical 45 be simplified?

The answer is yes.

Since radical 45 is equal to radical 9 times radical 5, and because radical 9 is equal to 3 (since 9 is a perfect square), we can simplify radical 45 to 3 times radical 5 (see the diagram below for a more detailed look on how to simplify square roots).

Finally, we can conclude that the final answer is:

Looking for more sample problems? Check out the free video lesson below to learn more about how to multiply radicals and how to multiply square roots :

How to Multiply Radicals and How to Multiply Square Roots Worksheet (with Answer Key)

Are you looking to get some more practice with multiplying radicals, multiplying square roots, simplifying radicals, and simplifying square roots?

Click the link below to access your free practice worksheet from Kuta Software:

Free Multiplying Radicals Worksheet

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Keep Learning:

By Anthony Persico

Anthony is the content crafter and head educator for YouTube's MashUp Math . You can often find me happily developing animated math lessons to share on my YouTube channel . Or spending way too much time at the gym or playing on my phone.

Understanding the Negative Exponent Rule

Before you learn to understand and apply the Negative Exponent Rule, let’s recap what you already know about positive exponents.

For example, 5^2, or 5 squared, is equal to 5x5, or 25.

But what would change if the exponent (2 in this case) was negative instead of positive?

In math, when you think of the word negative or negate, the implication is that you must perform the opposite or inverse operation.

With positive exponents, you perform multiplication.

So, with negative exponents, you perform the opposite or inverse of multiplication, which is…

Division (because division is the inverse operation of multiplication).

Now you are ready to use the Negative Exponent Rule

Negative Exponent Rule in 3 Easy Steps

Now let’s look at the previous example again, except this time the exponent is -2 (negative two).

Step One: Rewrite the Value with Negative Exponent as a Fraction

Since we are performing division (the inverse of multiplication), we will rewrite the value as a fraction with a numerator of one.

Step Two: Trash the Negative Sign and Move the Value to the Denominator

To complete the fraction, get rid of the negative sign in front of the exponent and move the remaining value (5 squared) to the denominator of the fraction.

Notice that 5 to the negative second power is equal to one over 5 to the positive second power.

Step Three: Trash the Negative Sign and Move the Value to the Denominator

The final step is to simplify rewriting 5 squared as 25 and concluding that 5^-2 is equal to 1/25 or 0.04.

Looking for a visual representation of how the negative exponent rule works?

Check out the free video lesson below to learn more about how the negative exponent rule.

Free Negative Exponents Worksheet

This lesson includes a free Negative Exponent Rule worksheet that accompanies the video lesson. Click the link below to get yours!

Download your free Negative Exponents Worksheet Lesson Guide PDF

Share your ideas, questions, and comments below!

(Never miss a Mashup Math blog--click here to get our weekly newsletter!)

By Anthony Persico

Anthony is the content crafter and head educator for YouTube's MashUp Math . You can often find me happily developing animated math lessons to share on my YouTube channel . Or spending way too much time at the gym or playing on my phone.