To find the radius of the can of beans, we can use the formula for the surface area of a cylinder, which is ( SA = 2\pi r(h + r) ), where ( r ) is the radius and ( h ) is the height. Given the surface area (333 cm²) and height (17 cm), we can rearrange the formula to solve for ( r ). By substituting the known values and using numerical methods or iterative calculations, we can determine the approximate radius of the can.
The height of a cylinder with a radius of 8 and a surface area of 954.56 is 10.99
A cylinder with a surface area of 200cm2 and a height of 20cm has a volume of about 137.96cm3
The surface area of a cylinder with a radius of 15in and a height of 34in is 4,618.14in2
you divide the surface area by the circumference.
The surface area is 377ft2
pie and jelly beans
The surface area depends on the height and width of the blackboard.
The surface area is a function of the height (or slant height) and the radius of the base. So, the slant height is a function of the surface area and the base-radius. Since the latter is unknown, the slant height cannot be calculated.
The height of a cylinder with the radius of 7 and surface area of 550 is 5.51
The height of a cylinder with a radius of 8 and a surface area of 954.56 is 10.99
The surface area of a cylinder with a radius 2m and 9m height is 138.23m2
The surface area of a cylinder with a radius of 6ft and a height of 7ft is 490.09ft2
The surface area of a cylinder with a radius of 3.8cm and a height of 11cm is 353.37cm2
A cylinder with a surface area of 200cm2 and a height of 20cm has a volume of about 137.96cm3
The surface area of a cylinder with a radius of 15in and a height of 34in is 4,618.14in2
The surface area is 7,640.35ft2
you divide the surface area by the circumference.