Find every thing
Divide the volume by the hieght. The result is the area of the circle forming the cylinder. Divide the area of the circle by PI. Multiply by 4 and then take the square-root. This will be the diameter of cylinder.
A circle, ellipse, truncated ellipse or rectangle - depending on the inclination of the cross section relative to the cylinder.
V = radius2 x pi x height
Pi * r-squared * hAnswerAnd if your cylinder is not a right circular one, things get a bit tricky from there. =)
Assuming the mass is evenly distributed around the cylinder's surface, you simply find the midway points between its three axes of symmetry. The midway point of the cylinder on the x-y plane is the center of the circle projected onto it and its midway point on the z-axis is half of the cylinder's height. Therefore, the center of mass of a hollow, evenly-distributed cylinder is at the center of the circle that divides the cylinder's height in two.
mass of cylinder (o.d.) minus mass of cylinder (i.d.)
In order to Calculate the weight of a hollow cylinder, you need to find out the density of the material of the cylinder first. once you have that, you can use the formulas below Find out volume of material as follows: Volume = Pi * (Outer Diameter of Cylinder)2/4 - Pi * (Inner Diameter of Cylinder)2/4 Mass = Density * Volume( from above equation) Note: Remember that units of Density and volume should be matching.
a tube is a hollow cylinder , a cylinder can be hollow or solid - according to my Websters dictionary
Divide the volume by the hieght. The result is the area of the circle forming the cylinder. Divide the area of the circle by PI. Multiply by 4 and then take the square-root. This will be the diameter of cylinder.
A hollow cylinder.
Surface area of a hollow cylinder = 2*pi*radius*length measured in square units.
The moment of inertia of a hollow cylinder can be calculated with the help of the formula, I=0.5xMxRxR. Here I is inertia, M is mass and R is the radius.
A tube is a hollow cylinder.
A hollow cylinder.
A hollow cylinder.
They are 'barrel-shaped' - in that they resemble a long, hollow cylinder.
A hollow cylinder about 3inches across