If it is a rectangular trapezoidal pedestal: Calculate the area of the base of the pedestal, multiply by the height of the pedestal. If the angles of the pedestal are not 90deg.. i.e. if it is a pyramidal trapezoidal pedestal. Then calculate the volume as you normally would a rectangular trapezoidal pedestal, and subtract the volume of the missing triangular pieces with the formula 1/3 area of base X height.
The volume of any right prism is the area of the base, in this case a trapezoid, multiplied by the height of the prism. The formula for the area of a trapezoid is A = 1/2h(a + b) where a and b are the bases of the trapezoid (the parallel sides). Once you calculate the area of the trapezoidal base of the prism, multiply that number by its height to get its volume.
concrete qty for bulb portion in pile foundation
Right formula is = V = [L X B X d] + h / 3 [ A1 + A2 + ROUTE UNDER A1 A2 ] where , l = length , b = breadth , d = bottom depth , h = D - d , A1 = bottom area , A2= top area (ii)is = V = [L X B X d] + h/6(A1 + A2 + 4 Am) where , h = D - d , A1 = bottom area , A2= top area, Am = Mean of Top and Bottom AreaRoute Under means Square route
formula of find the volume of dish
If you mean volume of a trapezoidal prism then it is: 0.5*(sum of parallel sides)*height*length
You cannot have a trapezoidal cylinder. That is like a square circle - an impossible shape.
Volume = cross-section area*depth Area of a trapezoid = 0.5*(sum of parallel sides)*width
Volume = Height*Width*Length
If it is a rectangular trapezoidal pedestal: Calculate the area of the base of the pedestal, multiply by the height of the pedestal. If the angles of the pedestal are not 90deg.. i.e. if it is a pyramidal trapezoidal pedestal. Then calculate the volume as you normally would a rectangular trapezoidal pedestal, and subtract the volume of the missing triangular pieces with the formula 1/3 area of base X height.
A cube cannot be trapezoidal. A cube MUST have only square faces. Second, what is the formula supposed to tell you: the total surface area? the volume? the angles? the side lengths?
area of base x height area of base x height
the volume of a trapezoidal prism is equal to the height times the base area of the trapezoid. First you find the area of trapezoid h(a+b)/2 h is the height of the trapezoid, not the height of the prism a is the length of the top b is the length of the bottom Then you find the volume of the trapezoidal prism with this formula H*h(a+b)/2 H is the height of the prism. Multiply H by the area of the trapezoid that you found in step one.
In general an Isolated footing has three parts. One Rectangular part another is Trapizoidal part and rest is Pedestrial part. The volume of concrete of rectangular part if AXBXH. The concrete volume of Trapizoidal part is h/3( AXB + aXb+ Sqrt(AXBXaXb) where h= Thickness of Trapizoidal portion, A & B are the dimensions of Bottom face and a & b are the dimension of top face. The volume of Pedestrial portion is aXbXD where D id depth of Pedestrial portion. Sum of three calculation gives you the volume of concrete of Isolated footing.
Area of trapezoidal cross-section x length.
The answer depends on what you mean by a trapezoidal trough. Is it a trough whose cross-section is a rectangle at any height but which increases linearly with the height or is it a trough whose base and each face is a trapezium.
Volume = 1/2*(a+b)*h*l where a and b are the lengths of the parallel sides of the trapezium, h is the height of the trapezium, and l is the length of the prism.