1, 8, 27, 64, 125, 216, 343, 512, 729, 1000, 1331, 1728
They are the sixth powers of all integers.
A number can't be cubed and prime. Cubed numbers (other than 1) have more than two factors.
The sum of the first n cubed numbers is the square of the nth triangular number.
The cubed numbers between 50 and 100 are 64 and 81. Specifically, 4 cubed equals 64 (4³ = 64) and 5 cubed equals 125, which exceeds 100. Therefore, the only cubed number in that range is 64.
The sum of the first n cubed numbers is: [n*(n+1)/2]2 which is the same as the square of the sum of the first n numbers.
They are the sixth powers of all integers.
A number can't be cubed and prime. Cubed numbers (other than 1) have more than two factors.
Well, honey, the cubed numbers between 2000 and 3000 are 8 cubed (512), 9 cubed (729), 10 cubed (1000), 11 cubed (1331), 12 cubed (1728), 13 cubed (2197), 14 cubed (2744), and 15 cubed (3375). So, there you have it, sweetie!
Without a specific range, that's an infinite list.
The sum of the first n cubed numbers is the square of the nth triangular number.
The sum of the first n cubed numbers is: [n*(n+1)/2]2 which is the same as the square of the sum of the first n numbers.
Numbers multiplied by it's self 3 times
2,628,071 and 2,628,073. 138 cubed is 2,628,072
Perfect cubes.
1, 8, 27, 64
8 is 2 cubed 27 is 3 cubed
The cubed numbers from 1 to 100 are 1, 8, 27, 64. These correspond to the cubes of the integers 1 through 4 (1³=1, 2³=8, 3³=27, and 4³=64). The next cube, 125 (5³), exceeds 100, so the list ends there.