The volume of the cylinder is: 15.7 cm3
The lateral area of a cylinder with a diameter of 10cm and height of 2cm is approximately 62.83cm2
The volume is 4.19 cm3
To find volume of a cylinder you just have to find the area of the circular dimension and multiply it by the length.To find the area use the formula:pi(3.14)*r^2In this case, r=2cm so:3.14*(2x2)=12.56cm^2(square centimeters)then multiply by length(height):12.56*12=150.72cm^3(cubic centimeters)
62.8 (pi times radius squared times height (3.14* 2 squared=12.56 then 12.56 times 5= 62.8)
To find the volume, you multiply the length, width/depth, and height together.The answer is 16 cm3.
The lateral area of a cylinder with a diameter of 10cm and height of 2cm is approximately 62.83cm2
A cylinder with a radius of 4cm and a height of 2cm has a volume of 100.53cm3
The volume is 4.19 cm3
Volume = pi*22*5 cubic cm
20 pie cm^3
The formula for the volume of a cylinder is Pi x r^2 x height. So this cylinder's volume is Pi (2cm)^2 x 5cm = 62.83 cubic cm
To find volume of a cylinder you just have to find the area of the circular dimension and multiply it by the length.To find the area use the formula:pi(3.14)*r^2In this case, r=2cm so:3.14*(2x2)=12.56cm^2(square centimeters)then multiply by length(height):12.56*12=150.72cm^3(cubic centimeters)
62.8 (pi times radius squared times height (3.14* 2 squared=12.56 then 12.56 times 5= 62.8)
I would say that the liquid rises by 1.77cm... This can be obtained as follows given that cylinder of radius(r)=2cm, height(h)=4cm is submerged in another cylinder, determining the volume of the cylinder being submerged =16*pi. When this cylinder is placed in another cylinder the liquid will rise by an amount which equals the volume of the cylinder being inserted.(By Archimedes principle). Using this 16*pi, determine the height using radius= 3cm , we get h=1.77cm
32.56
To find the volume, you multiply the length, width/depth, and height together.The answer is 16 cm3.
14