It should be relatively easy to find the surface area of a box when you are given the surface area.
Since you are already given the surface area, the answer is fairly trivial. In other words, the surface area is equal to the surface area.
The answer will depend on what the two given measures are. The total surface area is 2*pi*r*(r + h) where r is the radius and h the height.
Length x Width x Height = surface area
A cone with a diameter of 18km and a slant height of 20.1km has a total surface area of about 822.78km2
The surface area of a cylinder if the radius is 3 and the height is 11 equals 263.9 square units.
(height * width)/2
Make the height the subject of the fornula for the volume or surface area of the cylinder
Entire surface area of a cylinder = (2*pi*radius^2)+(circumference*height) If you are given the circumference then radius = circumference/2*pi
That will depend on its height which has not been given
2(pi)(r)(h)=the area of the curved surface
The answer depends on what information you are given: volume and height, or surface area and height, etc.
By dividing its cross-section area into its volume
You cannot. You need to know the height as well. If you know the height, the surface area, A is given by A = 2*Ï€*r2 + 2*Ï€*r*h where r is the radius and h the height.
divide surface area by width Sorry It is a little more complicated than that. Surface area = (2 X length X width) + (2 X length X height) + (2 X width X height) Solve for height Surface area - (2 X length X width) = 2height(length + width) (Surface area - (2 X length X width))/2(length + width) = height
120 cm
Add the area of the base to the combined area of the faces Or just do this formula: PIxradius squared+ PIxradiusxThe slant height (if it is given)
The answer will depend on what the two given measures are. The total surface area is 2*pi*r*(r + h) where r is the radius and h the height.
Divide the surface area by the circumference of the circle, which is a product of the diameter x Pi. Essentially, an unrolled cylinder is a rectangle.