The question is not clear about how many of the three dimensions of the box are quadruples. For example, you could quadruple its height but leave the length and breadth unchanged.
However, if you assume that all three dimensions are quadrupled, the surface area is 16 times as large and the volume is 64 times as great.
The volume is quadrupled.
4,096 is.
If each dimension is doubled, the prism then haseight times the volume that it had before.
no; surface area applies to the square unit of measurement of a 2-dimensional surface, such as one face of a box (length and width). Volume is a 3-dimensional representation that takes the 2-dimensional surface area (length x width) and adds a 3rd dimension in the form of depth, or height. Answers in volume will always be a cubic unit of measure. Summing it up: Surface Area: L x W Cubic Area (Volume): L x W x H
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Surface area is two-dimensional. Volume has a third dimension: depth.
The volume is quadrupled.
64
Area is proportional to a linear dimension squared, whereas volume is proportional to the linear dimension cubed. Thus, as a cell (or any object) increases in size, its volume grows proportionately more than its surface area.
As a cell increases in size, its volume increases more rapidly than its surface area. This is because volume increases cubically with size, while surface area only increases squared. This can create challenges for the cell in terms of nutrient exchange and waste removal as the cell grows larger.
4,096 is.
Volume is a measurement of capacity. Dimension is a linear measurement.
volume and stress and area have no dimension
It is quadrupled.
You must know at least one other dimension, such as diameter or surface area before this can be answered.
No because volume involves multiplying by a value on the 3rd dimension, and since the length on the 3rd dimension is 0 a square's volume is 0.
volume