No, 30 is not a perfect cube. A perfect cube is a number that can be expressed as the cube of an integer, such as (1^3 = 1), (2^3 = 8), or (3^3 = 27). The cube root of 30 is approximately 3.11, which is not an integer, confirming that 30 cannot be written as the cube of any whole number.
The perfect cubes between 10 and 30 are 27, which is the cube of 3 (3^3). The next perfect cube, 64 (4^3), exceeds 30, while the perfect cubes below 10 are 1 (1^3) and 8 (2^3). Therefore, 27 is the only perfect cube in that range.
no it is not 4 is a perfect cube
No, 148 is not a perfect cube.
No, 2 is neither a perfect square nor a perfect cube.
Because they are square/cube of an integer.
It could be any one of them: 3: A 1-digit perfect square - 1 which is not a perfect cube. 7: A perfect cube - 1 8: A 1-digit perfect square - 1 which is also a perfect cube. 15: A perfect 4th power - 1 30: More than 1 away from a perfect power.
Add 30 which becomes 2744 and its cube root is 14
no it is not 4 is a perfect cube
If by cube you mean perfect cube (a cube of an integer), then no, and the nearest perfect cube is 81.
No, 148 is not a perfect cube.
No, 2 is neither a perfect square nor a perfect cube.
Because they are square/cube of an integer.
It is both because 1,000,000 is a perfect cube and a perfect square number
A cube root of a perfect cube has only one dimension. A perfect cube is a number that can be obtained by multiplying an integer by itself three times. Taking the cube root of a perfect cube will give you the original integer value, effectively reducing the dimensionality back to one.
Not a perfect cube.
There is not a number that is a perfect square and perfect cube between 1 and 25.There is not a number that is a perfect square and perfect cube between 1 and 25.There is not a number that is a perfect square and perfect cube between 1 and 25.There is not a number that is a perfect square and perfect cube between 1 and 25.
81 is a perfect squarebecause 81 = 9*9. It is NOT a perfect cube.