Wiki User
∙ 11y ago8 8 6 = 48
Wiki User
∙ 11y agoVolume of a cylinder = pi*radius2*height
Volume cylinder = pi * r2 * hVolume cylinder = pi(8 mm )2(11 mm)= 2212 mm3========
A sphere with a radius of 74.9 mm has a volume of 1,760,086.7 mm3
Calculate the area of the circle of 101 mm radius. Multiply this by the length of 656 mm. Divide the result by 1,000.
The volume of a cylinder that has a diameter of 20 mm and a height of 15 mm is 4,712.39 mm3
Volume of a cylinder = pi*radius2*height
Volume cylinder = pi * r2 * hVolume cylinder = pi(8 mm )2(11 mm)= 2212 mm3========
Take 550mm divide it by 2 to get the radius. Square the value of the radius. Muiltiply that value with 960 and 3.14. You now have your volume of the cylinder in mm. To convert from mm to cm. Divide the value you got by 10. Volume of any cylinder = (Pi) x (radius)^2 x (height).
The volume in mm is 1,017,100,000 m3 and the volume in liters is 1,017.1 liters3
Volume = pi*r2*h So h = V/(pi*r2) = 1.279351 mm (to 6 dp)
A sphere with a radius of 74.9 mm has a volume of 1,760,086.7 mm3
Calculate the area of the circle of 101 mm radius. Multiply this by the length of 656 mm. Divide the result by 1,000.
The volume of a cylinder is given by the formula V = πr^2h, where r is the radius and h is the height. Given a diameter of 155 mm, the radius is 77.5 mm. Converting to inches, this is approximately 3.05 inches. Plugging these values into the volume formula, the volume is approximately 757.20 cubic inches, which is equivalent to about 3.28 gallons.
To determine the density of the cylinder, we need to first calculate its volume using the formula for the volume of a cylinder, which is V = πr^2h. Given that the diameter is 12 mm (which means the radius is 6 mm) and the height is 34 mm, the volume is V = π * 6^2 * 34 mm^3. Once you have the volume, you can then calculate the density by dividing the mass (35.65 g) by the volume.
Height = 1000/(pi*42) = 19.89436769 mm
The volume of a cylinder that has a diameter of 20 mm and a height of 15 mm is 4,712.39 mm3
A US nickel has a radius of 10.6 mm and a thickness of 1.95 mm. Coins can be thought of as thin cylinders, so applying the formula for the volume of a cylinder ( π * r^2 * h), the volume is approximately 3.1416 * 10.6^2 * 1.95 = 688 cubic mm.