Cross-sectional area of a cylinder A cylinder is a solid created by extending a circle through space perpendicular to its diameter. The area of a circle is given by the formula πr2, where r is the radius. It therefore makes sense that the volume of a cylinder would use the area of o...
Multiply the answer determined in Step 3 by pi to get the circle's area: 36 x pi = 113 square inches. Step 5 Multiply the circle's area by the cylinder's length to obtain the volume. If the length is, for instance, 10 inches, then compute as follows: 113 x 10 = 1,130 cubic ...
Air Flow Required for Single-Acting Cylinder S = Stroke (Inches) C = Cycles per Minute. CFM (Cubic Feet per Minute)= (A x S x C) / 1728. How do you calculate air flow in a pipe? Plugthe cross-sectional areas and theair speed in pipe one to calculate the air speed in pipe two...
For a member with a variable cross section, select the smallest cross section. For example, a tapered cylinder will have the smallest cross section at the narrowest end of the taper. Step 3 Divide the the applied load by the cross-sectional area to calculate the maximum tensile stress. For...
Calculate the radius of an aluminum cylinder given the following data: Mass = 2.050 g Density of aluminum = 2.70 g / cm^3 Height = 0.16 cm V = pi r^2h If a cylinder with a cross-sectional area of 150.0 cm^2 contains 5.00 cm^3 of a substance, what is t...
FIG. 3 is a cross-sectional view of weighing assembly100taken along line3-3of FIG. 1. Weighing assembly100may comprise chamber302in communication with channels304. Chamber302may be substantially air-tight. Each of channels304may be in communication with a corresponding foot assemblies220. In an...
Answer to: Calculate the modulus of resilience for the material having the stress-strain behavior shown in the figure below. By signing up, you'll...
This was expected as the cross-sectional area and steel yield stress are directly proportional to shear capacity; by increasing either, the maximum shear load will increase. It was observed that for the recorded results of steel yield stress of fy = 633 MPa, similar results were produced for ...
Find the cross-sectional area of the cylinder by finding the radius (half the diameter), squaring it and multiplying by pi. Then divide the volume you calculated by the area you calculated. That gives you the height of the cylinder. Not Helpful 6 Helpful 8 Question If one makes a ...