Wiki User
β 13y agoThere is not enough information. The prism could have a cross section that might be elliptical, triangular, rectangular or of any polygonal shape. Each shape would give a different answer.
Wiki User
β 13y ago26.46
Rectangles, being two-dimensional, don't have volume. The volume of the object you're describing is 240 cubic centimeters.
You aslo need to know the density of the matter being calculated. multiply the density by the volume to get the weight
Rectangles, being two-dimensional objects, do not have volume. Rectangular prisms, on the other hand, do. The equation for their volume is length*width*height, or lwh.
It depends on what is being measured. The instruments and units used for measuring the length, width and height of a building would be different to those used for a matchbox!
Block being a box: Height * Length * Depth = Volume Giving the three dimensions available.
26.46
volume of cuboid = height * width * length volume = 20 * 8 =160 cm ^ 3
Squares, being two-dimensional, don't have volume. They have area, length x width, or one side squared. Cubes have volume. Length x width x height or one side cubed.
If a rectangular prism and a triangular prism have the same length, width, and height, then their volumes are equal. This is because although the shapes are different, they both occupy the same amount of space if their dimensions are the same. The formula for calculating volume is length x width x height for both shapes, resulting in equal volumes.
its the volume of a cube with the length width and height all being 1cm its the volume of a cube with the length width and height all being 1cm
Rectangles, being two-dimensional, don't have volume. The volume of the object you're describing is 240 cubic centimeters.
You aslo need to know the density of the matter being calculated. multiply the density by the volume to get the weight
Height x length x width. 5 x 3 x 9=135 iff i do make my self clear
Rectangles, being two-dimensional objects, do not have volume. Rectangular prisms, on the other hand, do. The equation for their volume is length*width*height, or lwh.
Simply find the length of pipe that makes the bend and the look up the volume in a place like Crane's Technical Paper No. 410. To find the length of the pipe, use the formula S=R(theta) with R being the radius to the center of the pipe and theta, the angle of the bend (in radians). S will be the length in the same units as R. Thanks, Michael
It depends on what is being measured. The instruments and units used for measuring the length, width and height of a building would be different to those used for a matchbox!