This question has already been answered along with the workings.
The answer is: 9.947183943 inches
The volume of a right circular cylinder is found by using this formula: V=pi/4*r2*height Note: In this case, altitude and height are the same thing. Fill in the measurements you are given and solve. 500 = (3.14)(4)2(height) 500 = (3.14)(16)(height) 500 = (50.24)(height) height = approximately 9.95 inches
The volume of a cylinder is represented by this formula:r2Ï€hwhere r = radius of circular baseand h = height of cylinder
It is not possible if you only know the radius. A cylinder with a radius of 8 inches could be any height.
The height of a cylinder with a volume of 250 cubic inches and a radius of 6 inches is: 2.21 inches.
1,520.53 square inches.
pi*r2*h = volume pi*16*h = 500 Divide both sides by pi*16 to find the height or altitude: altitude or height = 9.947183943 inches
V = 1,608.5 cubic inches.
The radius of a cylinder is half the thickness of its circular cross section.
The volume of a right circular cylinder is found by using this formula: V=pi/4*r2*height Note: In this case, altitude and height are the same thing. Fill in the measurements you are given and solve. 500 = (3.14)(4)2(height) 500 = (3.14)(16)(height) 500 = (50.24)(height) height = approximately 9.95 inches
The volume of a circular cylinder varies directly with the height of the cylinder and with the square of the cylinder's radius If the height is halved and the radius is doubled then the volume will be increased.
Using the formula for the volume of a cylinder (V = πr^2h), and substituting the given values, we can find the radius. Rearranging the formula to solve for the radius gives us r = √(V / (πh)). Plugging in the values, we get the radius as √(146 / (10π)) ≈ 2.15 inches.
pi*radius2*height = volume Divide both sides of the equation by pi*radius2 to find the height or altitude: height or altitude = 500/pi*42 = 9.947183943 inches
volume of a regular right circular cylinder is V=pi(r2)h since the radius is (a) then the height of the circular cylinder would be (2a) so the volume of the largest possible right circular cylinder is... V=2(pi)(r2)(a) with (pi) being 3.14159 with (r) being the radius of the circle on the top and bottom of the cylinder with (a) being the radius of the sphere
The volume of a cylinder is represented by this formula:r2Ï€hwhere r = radius of circular baseand h = height of cylinder
Volume = Area * Length The volume of a right circular cylinder is πr2h where r is the radius of the base and h is its height (altitude)
A cylinder with a radius of 4 inches and a height of 12 inches has a volume of 603.186 cubic inches.
The volume of a cylinder that has a radius of 7 inches and a height of 10 inches is: 1,539.4 cubic inches.