The mass of a cylinder would be the volume times the density of the material it is made of. Therefore, where m = mass, r = radius, h = height, and ρ = density:
m = πr2hρ
The mass would correspond to the weight 1:1 on Earth and that would be the final answer. If the object is under a different gravity situation, the weight will need to be adjusted accordingly.
Since we want to calculate the weight of a cylinder, the formula is W = V*D. Or, Weight = Volume*Density. [πr²h is the formula for volume. Pi [3.14159...] x radius squared x height. Simply substitute if you have all aspects of the formula.]
gear with shaft dia40mm length 230 teeth 14 shaft dia 25mm width 6.5mm length 168mm
there is no formula discovered especially for the weight of flat
The cylinder will support, at neutral buoyancy, as much weight as the weight of water it could contain, less the weight of the cylinder itself.
Distance * Weight (in Newton meters)
The formula for calculating the polar moment of inertia of a cylinder is I (/2) r4, where r is the radius of the cylinder.
The equation for calculating the polar moment of inertia of a cylinder is I ( r4) / 2, where I is the polar moment of inertia and r is the radius of the cylinder.
The formula for calculating the polar moment of inertia for a cylinder is I (/2) r4, where I is the polar moment of inertia and r is the radius of the cylinder.
Since we want to calculate the weight of a cylinder, the formula is W = V*D. Or, Weight = Volume*Density. [πr²h is the formula for volume. Pi [3.14159...] x radius squared x height. Simply substitute if you have all aspects of the formula.]
The formula for calculating the moment of inertia of a rolling cylinder is I (1/2) m r2, where I is the moment of inertia, m is the mass of the cylinder, and r is the radius of the cylinder.
The formula for calculating the electric field of a cylinder is E / (2r), where E is the electric field, is the charge density of the cylinder, is the permittivity of free space, and r is the distance from the axis of the cylinder.
The formula for calculating the percent of weight loss is: (Initial weight - Current weight) / Initial weight x 100.
The formula for calculating weight loss percentage is: (Initial Weight - Current Weight) / Initial Weight x 100.
The formula for calculating the polar moment of inertia of a hollow cylinder is J /2 (router4 - rinner4), where J is the polar moment of inertia, router is the outer radius of the cylinder, and rinner is the inner radius of the cylinder.
gear with shaft dia40mm length 230 teeth 14 shaft dia 25mm width 6.5mm length 168mm
What ever was in the cylinder had weight of its' own. When the cylinder was emptied, only the weight of the cylinder was left.
there is no formula discovered especially for the weight of flat