Height
It depends on the unit. You could, for example, measure a prism in cubic metres, cubic centimetres, cubic nanometres.
Divide the pool into 2 parts as a cuboid and a triangular prism:- Volume of the cuboid: 75*3.5*50 = 13125 cubic feet Volume of the triangular prism: 0.5*8.5*75*50 = 15937.5 cubic feet Total volume: 13125+15937.5 = 29062.5 cubic feet
Specify...volume of what?Quoted from NASA:"The volume V of a sphere is equal to pi (3.14159) times the diameter d cubed divided by six;V = pi * d^3 / 6Since the diameter is twice the radius r of the sphere, this equation can also be written as:V = pi * 4 * r^3 / 3For a circular cylinder, we need to know the length h of the cylinder and the diameter d of the circular cross section. Then the equation for the volume is pi times the diameter squared times the length divided by four;V = pi * d^2 * h / 4For a rectangular prism with dimensions a, b, and h the volume is the product of the three lengths;V = a * b * hA cube is a special case of a rectangular prism in which all the sides are equal to a. The volume equation then becomes;V = a^3"
76 square mm
No, not with any degree of precision, anyway. A ruler is a linear measuring device; that is, it's good for measuring distances that are in straight lines. Volume is the amount of space an item occupies. To measure volume requires making three linear measurements, one for length, one for width(or depth), and one for height. But if your object is irregularly shaped, as a rock surely is, well, a ruler isn't going to do the job. Not very well, at least. You could grossly approximate the volume of the rock by measuring its dimensions roughly. In other words, if the rock is "about" six inches long and about three inches wide and about four inches high, then its volume is about 6 x 3 x 4 = 72 cubic inches (or inches cubed). But that is a very inexact calculation, because the rock is not a perfect parallelepiped. (What the heck is THAT? Double click the word for a definition.) A set of calipers would be better than a ruler, but your approximation would be only a bit better. To really determine the volume of the rock, you could submerge it in water and measure the amount of water it displaces. It might be a cool experiment to take a rock and approximate its volume with a ruler, calipers, and a beaker of water, to see how accurate (or inaccurate) each method is.
the volume of a rectangular prism, like it if it helped you
The volume of a rectangular prism is found by multiplying the base by the rectangle by the width of the prism, leading to the formula: lwh = Awhere l is the length of the prismw is the width of the prism andh is the height of the prism.
In a rectangular prism you multiply those three dimensions.
Volume of a Rectangular Prism The volume of a rectangular prism can be found by the formula: volume=length*width*height
The volume of a rectangular prism can be found by the formula: volume=length*width*height
The volume of a rectangular prism is given by the formula volume of rectangular prism = length x width x height If the length is l, the width is w and the height is h the volume is given by volume = lwh
The volume of a rectangular prism is found by; Volume = Length x Width x Height The volume of a triangular prism is found by; Volume = 1/2 x Length x Width x Height Therefore, Length, Width and Height being identical, 1) the volume of a rectangular prism is twice that of a similar triangular prism OR 2) the colume of a triangular prism is half that of a similar rectangular prism.
To find the volume on a rectangular prism, the equaton is: length*width*height
It is Length * Breadth * Height.
Volume of a rectangular prism is length x height x width.
A rectangular prism has a volume that can be found by multiplying the object's length width and height. To obtain the mass one must also know the density of the object and multiply that by the volume.
Both the cylinder and rectangular prism are solid objects. Volume of both can be found by multiplying the area of the base by the height.