LA= πrs
LA=piRS
The total surface area is 606.32 square inches. The lateral surface area is 405.25 square inches.
A cylinder is a tree-dimensional figure with two parallel bases bounded by congruent circles and a curved lateral surface that connects the circles. The height, h, of a cylinder is the length of any perpendicular segment drawn from a point on the base to the plane containing the other base. A cylinder is a right cylinder if the segment joining the centers of the bases is perpendicular to the planes of the bases. Otherwise, the cylinder is oblique. If a right cylinder has a height h and a base with radius r, then the lateral area L.A. is given by the formula: L.A. = 2(pi)(r)(h) The surface area S.A. is given by the formula: S.A. = L.A. + 2(pi)(r^2). Thus, the area of the cylinder's base is (pi)(r^2).
BA+LA2(Pi)r2 + 2(Pi)rh
Formula for cylinder volume is pi*r^2*h where r is radius and h is height. Vc = pi*2*2*6 Vc = 24*pi
Volume of the cylinder: pi*radius*radius*height
The answer is 226.19 units2The formula is AL = 2*Pi*radius*height
The lateral area... Apex :)
Uisng the lateral area and tha radius, you should be able to find the height of the cone. Using the height and radius as the legs of a right triangle, use the Pythagorean Theorem. The hypotenuse is the slant height.
It is 2*pi*r*h square units.
The lateral surface area of a right circular cone with a radius of 12cm and a slant height of 20cm is approximately 754cm2
For a right circular cone, the lateral area is 565.49 units2
pi x radius x slant height
A right cylinder having a base radius of 12mm and a height of 60mm has a lateral area of approximately 4523.89mm2
No, they cannot.
The curved surface area is 2*pi*r*h square units.
This cone has a lateral surface area of approximately 226.73cm2
2pi(r) multiplied by the height is lateral area of right cylinder. 2Pi(r) being the circumerfence of one of the bases.