Yes and here's the formula: 2 π r2 + 2 π r h
Use the formula for the volume. Replace the data you know (radius and volume), and solve for the missing data (the height). Once you have this height, it is easy to use the formula for the surface area.
Change the mixed numbers into improper fractions or decimals and use the formula for the cylinder's entire surface area of: (2*pi*radius2)+(pi*diameter*height)
That depends what you want to calculate (surface area, volume, etc.). For the volume, use the formula pi x radius2 x height.
A cylinder has two circular ends, then the long side surface, which is actually a rectangle if you flatten it out. You need the radius of the circular end (distance from the middle to the edge), and the height of the cylinder to work out the surface area. Doing the circular ends first, the surface area is given by the formula PI x radius squared. PI is 3.1415 for normal use. There are two ends, so count the answer twice. The side surface is a rectangle with one side of the height of the cylinder, and the other side the circumference of the circular end. The circular end length is 2 x PI x radius of the circular end. Now multiple that answer by the height of the cylinder. Finally add together the area of the two ends (don't forget to count both), and the area of the rectangle making up the long side, nd that's your answer.
Use the formula: area = 4 pi radius2.
You can use the formula for a cylinder; that should be close enough.
Use the formula for the volume. Replace the data you know (radius and volume), and solve for the missing data (the height). Once you have this height, it is easy to use the formula for the surface area.
You can use them when finding surface area or volume You can use a formula for a cylinder when finding the area of a cylinder. This is that formula: Areas of top and bottom circles + Area of the side 2(pi x radius2) + 2 x pi x radius x height
Change the mixed numbers into improper fractions or decimals and use the formula for the cylinder's entire surface area of: (2*pi*radius2)+(pi*diameter*height)
Find the surface area of a cylinder with a radius of 16 and a height of 23. Use 3.14 for π. Round your answer to the nearest te
That depends what you want to calculate (surface area, volume, etc.). For the volume, use the formula pi x radius2 x height.
if u r talking about its volume then its formula is 22/7 . square of radius . height and its curved surface area is 22/7 r l
First, you figure out what the area of the top of the cylinder is, which in case is pi times radius squared. Then, you multiply the answer by two. Next, you find the lateral surface area of the cylinder by multiplying the circumference times the height. Since the problem only gives us the radius of the cylinder, we use the formula, two times pi times radius times the height, in order to find the lateral surface area of the cylinder. Now the final step. Add the answer you got for the first step, plus the lateral surface area of the cylinder, and this should give you the surface area of the can of soup.
I would use 2*pi*r*(r + h) square units.
Find the cross-sectional area of the cylinder (pi x the radius2), the multiply that by the height of the cylinder
Use the formula for volume to solve for the radius of the sphere and then plug that radius into the formula for the surface area of a sphere.
Use the formula: area = 4 pi radius2.