Well you rule a 40cm over 2 4 and then you minus 45% from the diagonal lenth of the syntripical force which makes it 698% and partly impossibe
The length and volume are not sufficient to determine the width and height.
It is Length * Breadth * Height.
Volume of a rectangular prism is length x height x width.
A rectangular prism has three dimension: its length, width and height. A flat and long prism is one whose height is small and length is large.
A rectangular prism with a height of 7, a width of 5 and a length of 8 has a volume of 280 units3
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
width*height*length=perimeter of a rectangular prism! :)
The length and volume are not sufficient to determine the width and height.
It is Length * Breadth * Height.
Volume of a rectangular prism is length x height x width.
A rectangular prism has three dimension: its length, width and height. A flat and long prism is one whose height is small and length is large.
A rectangular prism with a height of 7, a width of 5 and a length of 8 has a volume of 280 units3
A rectangular prism with a length of 11m, width of 8m and height of 3m has a volume of 264m3
More information must be given - the width can vary from zero to a really high number. If the volume is given, you can divide it by the product of the length and the height and you get the width.
No.
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.
A rectangular prism with a length of 14, width of 8 and height of 5 has a volume of 560 cubic units.