Perfect Cube Numbers and How to Find Cube Roots up to 100
The cube root of a number a is that number which when multiplied by itself three times gives the number ‘a’ itself. The cube root is the inverse operation of cubing a number. The cube root symbol is ∛, it is the “radical” symbol (used for square roots) with a little three to mean cube root.
Perfect Cube Root
A cube is a number that will result in a number multiplied by itself three times for example if y is a perfect cube root of z then y = z3. If the number 5 is multiplied 3 times it results in 125 so 125 is a perfect cube root of 5.
Perfect cube root of any number = number x number x number.
A perfect cube root will always give an integer answer but a non-perfect cube root will not give an integer answer. Perfect cube root will be free from decimals and fractions.
Suppose, if n is a perfect cube for any integer m i.e., n = m3, then m is called the cube root of n and it is denoted by m = \[\sqrt[3]{n}\].
Cube root list 1 to 100 will help students to solve the cube root problem easily, accurately, and with speed.
Properties of Cube Root
The cube root of the odd number will always be an odd number.
The cube root of all even natural numbers is an even number.
The cube root of a negative number will always be negative.
the cube root will always give an integer as the answer.
Cube Root of 1 to 100
The cube root from 1 to 100 will help students to solve mathematical problems. A list of cubic roots of numbers from 1 to 100 is provided in a tabular format. The cube root has many applications in Math, especially in geometry where we find the volume of different solid shapes, measured in cubic units. It will help us to find the dimensions of solids. For example, a cube has volume ‘x’ cubic meter, then we can find the side-length of the cube by evaluating the cube root of its volume, i.e., side = \[\sqrt[3]{x}\]. Let us see the values of cubic roots of numbers from 1 to 100.
Cube Root List 1 to 100
Finding the Cube Root of a Perfect Cube
Recall that a perfect cube is a number that is the result of multiplying a number with itself 3 times.
We can think of cube roots in the same context that we view square roots. When we take the square root of a perfect square, we are searching for the number that, when multiplied by itself two times, results in the perfect square. Similarly, when we are finding the cube root of the perfect cube, we are searching for the number that when multiplied by itself three times, results in the perfect cube.
Let's solve an example.
Find \[\sqrt[3]{343}\].
Solution: To find this, we first need to break 343 into its prime factorization. To do so, we need to find the first pair of factors that include a prime number. For 343, this first pair will be 7 and 49. 7 cannot be broken down any further, but 49 can be broken into 7and 7. Therefore, we can say that \[\sqrt[3]{343}\] = \[\sqrt[3]{7}\] x 7 x 7, so we can say that the cube root of 343 is 7, where 7 x 7 x 7 = 343
Solved Examples
Example 1: Solve \[\sqrt[3]{4}\] - \[\sqrt[3]{2}\].
Solution: From the table, we can get the value of \[\sqrt[3]{4}\] and \[\sqrt[3]{2}\]
\[\sqrt[3]{4}\] = 1.587 \[\sqrt[3]{4}\] = \[\sqrt[3]{7}\]
\[\sqrt[3]{2}\] = 1.260
Therefore,
\[\sqrt[3]{4}\] + \[\sqrt[3]{2}\] = 1.587 - 1.260
= 0.327
Example 2: Evaluate the value of \[6\sqrt[3]{4}\]
Solution: We know,
\[\sqrt[3]{4}\] = 1.587
Therefore,
\[6\sqrt[3]{4}\] = 6 x 1.587
= 9.522
Quick Summary
The cube root of a number is any number multiplied three times itself.
There are two types of cube root perfect cube root and non-perfect cube root.
A perfect cube root will always give an integer answer.
A cube root can be positive as well as negative.
A cube root of a negative number will always give a negative answer.
The easiest method to solve cube root is prime factorization followed by the long division method.
Did You Know?
Any prime number p divides the cube, then p3 also divides this cube.
In the prime factorization of the perfect cube, prime numbers appear in multiples of 3.
Unit digit of a number in 0, 1, 4, 5, 6, 9 then, the unit digit of its cube also will be 0, 1, 4, 5, 6, 9.
Every non-zero number has three distinct cube roots.
The cube root is defined for all real values of X and hence cube root function passes through the origin and increases gradually.
The Cube root Function does not have any domain restrictions.
The domain and range of a cube root function are all real numbers.
Conclusion
This is the cube root list of numbers from 1 to 100. Concentrate on how the cube roots of different numbers are calculated. Focus on the features of cube roots along with examples and develop your concepts well.
FAQs on Cube Root List from 1 to 100 with Values
1. What is the cube root list from 1 to 100?
The cube root list from 1 to 100 includes the cube roots of numbers between 1 and 100, with perfect cubes having whole number cube roots. The most important perfect cubes in this range are:
- ∛1 = 1
- ∛8 = 2
- ∛27 = 3
- ∛64 = 4
2. What are the perfect cube numbers between 1 and 100?
The perfect cube numbers between 1 and 100 are 1, 8, 27, and 64. These numbers are obtained by cubing whole numbers:
- 1³ = 1
- 2³ = 8
- 3³ = 27
- 4³ = 64
3. How do you find the cube root of a number between 1 and 100?
To find the cube root of a number between 1 and 100, check if it is a perfect cube or use estimation for non-perfect cubes. Follow these steps:
- Step 1: Identify nearby perfect cubes (1, 8, 27, 64).
- Step 2: Estimate between them.
- Example: For 50, since 27 < 50 < 64, the cube root lies between 3 and 4.
- Using a calculator: ∛50 ≈ 3.68.
4. What is the formula for cube root?
The cube root formula of a number x is written as ∛x = x^(1/3). This means that if y³ = x, then y = ∛x. For example:
- If y³ = 27, then y = ∛27 = 3.
5. What is the cube root of all perfect cubes from 1 to 100?
The cube roots of all perfect cubes from 1 to 100 are whole numbers. The complete list is:
- ∛1 = 1
- ∛8 = 2
- ∛27 = 3
- ∛64 = 4
6. Is 100 a perfect cube number?
No, 100 is not a perfect cube because no whole number multiplied three times equals 100. Since 4³ = 64 and 5³ = 125, 100 lies between them. Therefore, its cube root is a decimal value: ∛100 ≈ 4.64.
7. What is the cube root of 2, 3, and 5?
The cube roots of 2, 3, and 5 are non-perfect and written in decimal form. Their approximate values are:
- ∛2 ≈ 1.26
- ∛3 ≈ 1.44
- ∛5 ≈ 1.71
8. How many perfect cubes are there between 1 and 100?
There are 4 perfect cubes between 1 and 100. These are 1, 8, 27, and 64. The next cube, 125, exceeds 100, so it is not included in the list.
9. What is the difference between square root and cube root?
The square root of a number gives a value that when multiplied twice equals the number, while the cube root gives a value that when multiplied three times equals the number. For example:
- √64 = 8 because 8 × 8 = 64
- ∛64 = 4 because 4 × 4 × 4 = 64
10. How do you memorize the cube root list from 1 to 100 easily?
To memorize the cube root list from 1 to 100, focus only on the four perfect cubes: 1, 8, 27, and 64. Use this simple pattern:
- 1³ = 1
- 2³ = 8
- 3³ = 27
- 4³ = 64
