0, 1 and any number that is a 12th power.
1 and 4096
Yes it is both
The number 8 is not a perfect square because it is not classified as the product of two positive integers. The number 8 is classified as a perfect cube, however.
It is both because 1,000,000 is a perfect cube and a perfect square number
1
729
64. 4x4x4 and 8x8
It is the smallest composite number that is both a perfect square and a perfect cube.
A cube number normally refers to a number that is a cube of an integer. Now 13 = 1*1*1 = 1 and 23 = 2*2*2 = 8. So, if 6 were a cube then it would have to be the cube of a whole nmumber between 1 and 2. But there are no integers between 1 and 2. SO 6 cannot be a proper cube. Having said that, 6 IS the cube of the irrational number that is approximately 1.817121
Yes it is both
The number 8 is not a perfect square because it is not classified as the product of two positive integers. The number 8 is classified as a perfect cube, however.
It is both because 1,000,000 is a perfect cube and a perfect square number
1
729
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.
That would depend on how many numbers are on the spinner and the cube. The more numbers there are, the less likely it is that they would both land an any given number.
0, 1 and 64
The cube root of 5 is an irrational number, meaning it cannot be written as a/b where a and b integers and b is not 9. We can approximate it and the cube root of 5 is about 1.70997595