The formula to find the lateral area ( A ) of a right cone is given by ( A = \pi r s ), where ( r ) is the radius of the base of the cone and ( s ) is the slant height. This formula calculates the surface area of the cone's curved surface, excluding the base.
The answer is 226.19 units2The formula is AL = 2*Pi*radius*height
The formula to find the lateral area of a right cone is given by ( LA = \pi r s ), where ( r ) is the radius of the base and ( s ) is the slant height. This formula calculates the curved surface area of the cone, excluding the base. To use it, simply multiply the radius by the slant height and then by (\pi).
The lateral area ( A_L ) of a right cylinder can be calculated using the formula ( A_L = 2\pi rh ), where ( r ) is the radius of the base and ( h ) is the height of the cylinder. This formula represents the area of the curved surface that wraps around the sides of the cylinder.
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.
The formula ( rs ) represents the lateral surface area of a right cone, where ( r ) is the radius of the base and ( s ) is the slant height. The lateral surface area of a cone can be calculated using the formula ( \frac{1}{2} \times 2\pi r \times s = \pi r s ). Thus, the expression ( rs ) is part of this calculation, specifically indicating the product of the radius and the slant height, which is essential for deriving the full lateral surface area.
The answer is 226.19 units2The formula is AL = 2*Pi*radius*height
LA= πrsLA=piRS
The formula to find the lateral area of a right cone is given by ( LA = \pi r s ), where ( r ) is the radius of the base and ( s ) is the slant height. This formula calculates the curved surface area of the cone, excluding the base. To use it, simply multiply the radius by the slant height and then by (\pi).
The lateral area... Apex :)
The lateral area ( A_L ) of a right cylinder can be calculated using the formula ( A_L = 2\pi rh ), where ( r ) is the radius of the base and ( h ) is the height of the cylinder. This formula represents the area of the curved surface that wraps around the sides of the cylinder.
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.
The formula ( rs ) represents the lateral surface area of a right cone, where ( r ) is the radius of the base and ( s ) is the slant height. The lateral surface area of a cone can be calculated using the formula ( \frac{1}{2} \times 2\pi r \times s = \pi r s ). Thus, the expression ( rs ) is part of this calculation, specifically indicating the product of the radius and the slant height, which is essential for deriving the full lateral surface area.
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