The volume of an oblong is: volume = length x width x height As the box is cubical, ie is a cube, all sides are of equal length, thus: volume_cube = side x side x side = side3 So, given the volume: side = cube_root(volume) ie, take the cube root of the volume of 2.197cm3.
The side length would be 12.
tangent
sin θ : 1 = the length of opposite side to angle θ : the length of the hypotenuse
It is a tangent.
8.9
The length of one side would be 18 inches. A square means that each side is equal so you take the square root of 324.
1 foot
the sides of the cubical box would be 7 meters
The breadth of the box refers to the measurement of the box from one side to the other side, typically considered as the width.
The volume is 2208 cubic units.
Perimeter = Length of side 1 + Length of side 2 + Length of side 3 + Length of side 4 + Length of side 5 + Length of side 6 + Length of side 7 + Length of side 8.
If you are after the volume, and the sides are all the same length, you take the length of one side and multiply it by itself three times (A cube has a side length of 3, what is it's volume? 3*3*3=27)
Using this formula:Volume = length * width * heightSubstitute in known values:24 = length * 2 * 3Simplify right hand side:24 = length * 6Divide both sides by 6, isolating length:4 = lengthThe length of the box is 4.
The volume of an oblong is: volume = length x width x height As the box is cubical, ie is a cube, all sides are of equal length, thus: volume_cube = side x side x side = side3 So, given the volume: side = cube_root(volume) ie, take the cube root of the volume of 2.197cm3.
Not enough information. If you know ONE side of the box, you have many different combinations for the OTHER TWO sides, to have a certain volume - and each of these will give you different areas.
36 27 I mean