You have a cube that all the lengths are 5 cm. and the formula for volume is (b)(h)(l)=v, or base times height times length. and since that its a square that you're working with you could do 53 because 5 times 5 times 5 is equal to 5 cubed. 53 is 125. So, the volume is going to be 125 cm3, or 125 cubic cm.
It depends on the information that you have. If you know that they are cubes, rather than cuboids, you could show that a side of one is the same length as a side of the other, or that the area of a face of one is the same as that of the other or that the volume of one is the same as that of the other.
yeah
25 cm
One way to find out the number of cubes that can fit inside a rectangular box is to use its volume. Knowing the volume of the cubes and that of the box can give an accurate reading of the cubes that can fit.
Perhaps surprisingly, it is 5 cm.
To find the volume of a stack of centimeter cubes you only need to have the dimension of one side. Once you get the dimension of one side you can find its cube to get the volume of the stack.
The volume of one sugar cube is 3*3*3 = 27 cubic cm. The volume of 30 cubes is 30*27 = 810 cubic centimetres. Incidentally, these are abnormally large cubes. Most that I have seen are at most 1 cm on each side.
Squares, being two-dimensional, don't have volume. They have area, length x width, or one side squared. Cubes have volume. Length x width x height or one side cubed.
Cube one's volume = 9*9*9 = 729 cubic units. As there are two cubes, their volumes added together = 1458 cubic units.
It depends on the information that you have. If you know that they are cubes, rather than cuboids, you could show that a side of one is the same length as a side of the other, or that the area of a face of one is the same as that of the other or that the volume of one is the same as that of the other.
yeah
25 cm
No, the length of one side can't be greater than the perimeter.
One way to find out the number of cubes that can fit inside a rectangular box is to use its volume. Knowing the volume of the cubes and that of the box can give an accurate reading of the cubes that can fit.
You take the number of cubes on one side multiplayed by the number of sides. for example, in the standard rubik cube there are 9 cubes on each side and 6 sides. 9 times 6 is 54 so there are 54 cubes on a ribik cube
Perhaps surprisingly, it is 5 cm.
It is: 4*5 = 20cm