Wiki User
∙ 13y agoSimply knowing the volume and surface area is not enough information to determine the shape. There is a table of SA/V ratios, but they become distorted for large and small values, so there is no way to tell.
Wiki User
∙ 13y agoIt is not possible to have a sphere with a surface are of 300 metres squared and a volume of 500 metres cubed. A surface area of 300 sq metres would imply a volume of 488.6 cubic metres or a shape that is non-spherical!
cubed is 3 and squared is 2 they say cubed feet to say it is in feet and it is a 3d shape or object. Same with 2d.
In terms of fluid capacity, a shape with a volume of 4,000 cm3 could hold up to about 1.056 US gallons.
No shape can have a volume of 6 cm2
depends on the shape... if its a sphere or a prism or what. You'll get different answers because they have different surface area to volume ratios. Sphere will give you the biggest volume for a given surface area.
It is not possible to have a sphere with a surface are of 300 metres squared and a volume of 500 metres cubed. A surface area of 300 sq metres would imply a volume of 488.6 cubic metres or a shape that is non-spherical!
Squared. When you find surface area, you are only finding the area of the shapes that make up the three-denominational shape.
cubed is 3 and squared is 2 they say cubed feet to say it is in feet and it is a 3d shape or object. Same with 2d.
Distance is the measure between two points. Volume is the amount of space in a 3 dimensional object. Distance of a line = m (metres) Area of a shape = m² (metres squared) Volume of a shape = m³ (metres cubed)
If you mean: 4/3*pi*radius cubed then it is the volume of a sphere
yeahcuz with a shape (2D) it's always gotta be squared after u calculate the areabut if it's 3D then it's cubed
The surface-area-to-volume ratio may be calculated as follows: -- Find the surface area of the shape. -- Find the volume of the shape. -- Divide the surface area by the volume. The quotient is the surface-area-to-volume ratio.
As you would find the surface area of a normal shape using scale factors: to find the volume scale factor cubed, therefore to find the surface area of the hypercube, you do the scale factor to the power of four. geoffrz450@yahoo.co.uk
The shape affects the ratio of surface area to volume. The greater the surface are to volume ratio, the faster the magma will cool.
In terms of fluid capacity, a shape with a volume of 4,000 cm3 could hold up to about 1.056 US gallons.
surface area/ volume. wider range of surface area to volume is better for cells.
No shape can have a volume of 6 cm2