miles per hour x 88 = feet per minute
To calculate the taper area of a structure, you need to determine the area of the cross-section at both the wide and narrow ends of the taper. The formula for the taper area (A_taper) can be expressed as: [ A_{\text{taper}} = \frac{(A_{\text{wide}} + A_{\text{narrow}})}{2} \times L ] where ( A_{\text{wide}} ) and ( A_{\text{narrow}} ) are the areas of the wide and narrow ends, respectively, and ( L ) is the length of the taper. This formula gives the average cross-sectional area multiplied by the length, effectively calculating the volume of the tapered section.
to calculate square feet you need a 2d shape
A 1,200 square feet parcel at $7.25 per square foot is worth: 1200 sq.ft. X $7.25/sq.ft. = $8,700
The purpose of measuring taper angle is to obtain taper angle
The formula to calculate taper in millimeters would be: (small diameter - large diameter) / taper length. The result will give you the taper in millimeters per unit length.
The taper, per foot, is 0.0896
miles per hour x 88 = feet per minute
This is the formula for calculating a taper: Large diameter of the taper minus the small Diameter of the taper divided by the length of of the taper will give you the taper per inch. You will also need to know the included angle of the taper if you ar cutting this taper. This formula would be Tangent of the included angle divide by 2.
Calculate the volumeof whatever is being paid for, in cubic feet, then multiply that number of cubic feet by the cost per cubic foot.
There is not enough information to answer this question.
You cannot do that. Do you mean gallons per second to hours?
1 US gallon = 0.133680556 feet^3
To calculate the center of gravity for a taper shaft, you would need to consider the varying cross-sectional area along the length of the shaft. You can use an integral approach to determine the centroid of each cross-sectional area and then calculate the weighted average of these centroids to determine the overall center of gravity of the taper shaft. Alternatively, you can simplify the taper shaft as a series of smaller sections with uniform cross-sections and calculate the center of gravity for each section, then determine the overall center of gravity using the weighted average of these section centroids.
To calculate the taper area of a structure, you need to determine the area of the cross-section at both the wide and narrow ends of the taper. The formula for the taper area (A_taper) can be expressed as: [ A_{\text{taper}} = \frac{(A_{\text{wide}} + A_{\text{narrow}})}{2} \times L ] where ( A_{\text{wide}} ) and ( A_{\text{narrow}} ) are the areas of the wide and narrow ends, respectively, and ( L ) is the length of the taper. This formula gives the average cross-sectional area multiplied by the length, effectively calculating the volume of the tapered section.
A Morse Taper 4 tool holder typically has dimensions of 0.9375 inches per foot taper and a diameter of 0.9375 inches at the small end.
Easy. The conversion factor is 1.466. So, 70 mph x 1.466 = 102.62 feet per second.