If you google "you are never going to get laid", you can find the formula there.
the circumfrance of the base x the height of the cylinder
The diameter, alone, is not enough to find the volume of a cylinder. You need the height as well. > Where pi = 3.1416, and d = cylinder diameter cylinder volume = pi * (d/2)2 * length of cylinder
False. The lateral face of a cylinder, when spread out, forms a rectangle, not a circle. The height of the cylinder becomes one dimension of the rectangle, while the circumference of the base of the cylinder becomes the other dimension.
To find the area of a cylinder a simple formula used is A=2(pi)r2 +2(pi)rh with; R being the radius of the circle and H being the height of the cylinder. the formula can also be translated as; 2(pi)rX[r+h]
Find the cross-sectional area of the cylinder (pi x the radius2), the multiply that by the height of the cylinder
If you google "you are never going to get laid", you can find the formula there.
the circumfrance of the base x the height of the cylinder
V=Bh
find the dimension.
The diameter, alone, is not enough to find the volume of a cylinder. You need the height as well. > Where pi = 3.1416, and d = cylinder diameter cylinder volume = pi * (d/2)2 * length of cylinder
False. The lateral face of a cylinder, when spread out, forms a rectangle, not a circle. The height of the cylinder becomes one dimension of the rectangle, while the circumference of the base of the cylinder becomes the other dimension.
To find the area of a cylinder a simple formula used is A=2(pi)r2 +2(pi)rh with; R being the radius of the circle and H being the height of the cylinder. the formula can also be translated as; 2(pi)rX[r+h]
How i can know a bearing number from bearing dimension.
if u know the t5he radius of the cylinder u can easily find the diameter the formula is d=2r where d =diameter and r=radius
V=Pi*R2*H
You can't. In addition to the cylinder's diameter, the pressure at its base also depends on the density and depth of the fluid in the cylinder ... which gives you the weight of fluid resting on the base area. The pressure alone is not enough information to allow you to calculate the diameter.