A standard kilogram.
you cannot ... unless you want to use advanced geometrical calclus
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.
Density = Mass/Volume, correct. However, with a cylinder, you have to find the volume. In order to find the volume of a cylinder use the equation PiR2 * H where "R" is the radius (Diameter/2) squared.
The formula for determining the volume of a cylinder is as follows:it is the product of the cylider's radius squared (half its diameter) and pi (3.14 rounded to the nearest hundredth) multplied by its height.Example:For a cylinder having a diameter of 10 inches and a height of 20 inches, the setup problem would be:5 x 5 x 3.14 x 20 = 1,570 cubic inches.
The weight (not mass) is 69.05 pound weight.
you cannot ... unless you want to use advanced geometrical calclus
what is the radius of a cylinder if the height is 8.74
In the SI the unit of mass is kilogram: the mass of of a cylinder (height=diameter= 39,17 mm) made from 90 % platinum and 10 % iridium. The instrument to measure mass is a balance.
This answer is a lot easier than you thought. I would, however, need proper units in order to give you an appropriate answer. The volume of a cylinder is calculated by multiplying the area of the base by the height of the cylinder, correct? Density is mass divided by volume, thus if you keep mass the same and increase the volume you get a lower density. So because you know the density, and the mass, (provided they are in similar units) D=M/V, where D is density and M is mass, and V is volume. You solve for volume. once you have the volume, you divide it by the height of the cylinder (once again provided the units are the same) to get the area of the base. the area of a circle is (pi)r^2 so divide by pi, and take the square root of the result. Then you multiply that answer by 2, and that is the diameter of the base.
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.
Density = Mass/Volume, correct. However, with a cylinder, you have to find the volume. In order to find the volume of a cylinder use the equation PiR2 * H where "R" is the radius (Diameter/2) squared.
Cylinder Volume = (pi) *(radius2)*(height) Cylinder volume = (3.1416)*(22)*(80) Cylinder volume = 1005.312 cm Density = Mass / Volume 0.0045 gcm = Mass / 1005.312 cm Mass = 0.0045 gcm * 1005.312 cm Mass = 4.523904 g
The formula for determining the volume of a cylinder is as follows:it is the product of the cylider's radius squared (half its diameter) and pi (3.14 rounded to the nearest hundredth) multplied by its height.Example:For a cylinder having a diameter of 10 inches and a height of 20 inches, the setup problem would be:5 x 5 x 3.14 x 20 = 1,570 cubic inches.
The weight (not mass) is 69.05 pound weight.
Mercury has a mass of 0.33x1024kg, and a diameter of 4879km.
No, the atomic mass is the average mass of the atom and the atomic diameter is the average diameter of the atom
You cannot calculate "mass" from this without a weigh measurement, since mass is a measure of weight. However you may be trying to calculate "volume", in which case use pi*radius squared to find the area of the base, then multiply this answer by the height. Volume is not the same as mass.