If the
Smaller inner radius is r,
Larger inner radius is R, and
the Length of the pipe is L
then
Vol = 1/3*pi*L*(R2 + Rr + r2)
A hollow truncated cone is a geometric shape that is cone-shaped. The formula to calculate the volume is s^2=h^2 + (R-r)^2.
conclusion
Water Displacement Method?
The length times the width times the height.
height x length x width
A hollow truncated cone is a geometric shape that is cone-shaped. The formula to calculate the volume is s^2=h^2 + (R-r)^2.
calculate the overall volume as if the prism wasn't truncated and did form a central peak (v = 1/2*b*h*l), then calculate the volume of the prism above the truncation. Then deduct this from the overall volume.
conclusion
To calculate the density of a regular shaped object, you need to measure its mass and volume. The density is then calculated by dividing the mass of the object by its volume. The formula for density is: density = mass / volume.
To calculate the density of an irregular shaped floating object, you can measure its mass using a balance and then find its volume by submerging it in a known volume of water and measuring the water displaced. For a regular shaped floating object, you can simply divide its mass by its volume to find the density.
The length times the width times the height.
Water Displacement Method?
height x length x width
It is length * breadth * height.
For mass, you would use a triple-beam balance. For volume, you would either use a graduated cylinder (for liquids), calculate the displacement with a graduated cylinder (for an odd-shaped solid), or calculate it using the equation for volume (for a regularly-shaped solid).
To find the internal volume of a pipe, you can use the formula for the volume of a cylinder, which is ( V = \pi r^2 h ), where ( r ) is the internal radius of the pipe and ( h ) is the length of the pipe. First, measure the internal diameter of the pipe and divide it by 2 to get the radius. Then, measure the length of the pipe and plug these values into the formula to calculate the volume. If the pipe has varying diameters, you may need to calculate the volume for each section separately and then sum them up.
Trying to figure this out too...