4
If one dimension of a 3-dimensional shape is doubled, the volume increases by 21 = 2. If two dimensions of a 3-dimensional shape are doubled, the volume increases by 22 = 4. If all three dimensions of a 3-D shape are doubled, the volume increases by 23 = 8.
A circle does not have volume since it is a 2 dimensional shape. Volume requires 3 dimensions.
It is multiplied by nine.
A box is typically a cube shape. The volume of a cube is equal to length multiplied by width multiplied by height. V = L * W * H
Three dimensions are needed to calculate volume. Usually length, width and depth.
two
If one dimension of a 3-dimensional shape is doubled, the volume increases by 21 = 2. If two dimensions of a 3-dimensional shape are doubled, the volume increases by 22 = 4. If all three dimensions of a 3-D shape are doubled, the volume increases by 23 = 8.
2
64
A circle does not have volume since it is a 2 dimensional shape. Volume requires 3 dimensions.
If both dimensions are doubled then the area is quadrupled. This is true of any geometric shape.
It is multiplied by nine.
three
The volume doesn't tell the dimensions. It doesn't even tell the shape.
you look at the shape
The first step is to figure out what shape the net will make when converted to 3-dimensions. Then, if you are lucky, there will be a suitable formula for finding the volume of such a shape.The first step is to figure out what shape the net will make when converted to 3-dimensions. Then, if you are lucky, there will be a suitable formula for finding the volume of such a shape.The first step is to figure out what shape the net will make when converted to 3-dimensions. Then, if you are lucky, there will be a suitable formula for finding the volume of such a shape.The first step is to figure out what shape the net will make when converted to 3-dimensions. Then, if you are lucky, there will be a suitable formula for finding the volume of such a shape.
No, it's not that simple. the volume of a box, if let us say (for simplicity's sake) it is cubical in shape, is the length cubed (or if it is rectangular, it is length x width x height). So let us say we have a cubical box 2' on an edge. Its volume is 2x2x2=8 cubic feet. Now let us say that we double the length of an edge. Now we have 4x4x4=64 cubic feet. It has eight times the volume of the smaller box. If we are dealing with a rectangular box rather than a cubical box, the calculations are more complicated, but it remains true that the volume grows much faster than the linear dimensions.