4 cubed = 64 and any product of 64 by a cube would work.
They are all the multiples of 16.They are all the multiples of 16.They are all the multiples of 16.They are all the multiples of 16.
There are a total of 5 positive three-digit perfect cubes that are even. To find this, we first determine the range of three-digit perfect cubes, which is from 46 to 96. Then, we identify the even perfect cubes within this range, which are 64, 216, 512, 729, and 1000.
56 2,2,2,7 perfect cubes=1,8
26
100
They are all the multiples of 16.They are all the multiples of 16.They are all the multiples of 16.They are all the multiples of 16.
13 cubes 4,9,16,25,36,46,64,81,100,121,144,169,196
All multiples of 16 are also multiples of 2.
Some of the multiples of 14 are the same as the multiples of 16, but not all of them.
There are a total of 5 positive three-digit perfect cubes that are even. To find this, we first determine the range of three-digit perfect cubes, which is from 46 to 96. Then, we identify the even perfect cubes within this range, which are 64, 216, 512, 729, and 1000.
There are no multiples of 16 that are less than 16.
Perfect cubes.
Multiples of 8 are numbers that can be expressed as 8n, where n is an integer. Perfect squares are numbers that are the result of multiplying an integer by itself, such as 1, 4, 9, 16, etc. To find which multiples of 8 are perfect squares, we need to find the numbers that can be expressed as 8n = m^2, where m is an integer. The only perfect square that is a multiple of 8 is 64, which is 8*8.
56 2,2,2,7 perfect cubes=1,8
When it is of the form x3 + y3 or x3 - y3. x or y can have coefficients that are perfect cubes, or even ratios of perfect cubes eg x3 + (8/27)y3.
Simply calculate the cubes of a few small numbers, and check which of them are in the desired range.
10 cubes plus 6 cubes equals 16 cubes. In mathematical terms, this can be expressed as (10^3 + 6^3), which equals 1000 + 216 = 1216. However, if you're simply adding the counts of cubes, then you have 16 cubes in total.