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.
The formula for calculating the volume of a hexagonal prism is to take the area of the hexagon, then multiply it by the height of the prism.
c+i+g a+
The answer will depend on what information you have.
General formula for calculating efficiency is given by Efficiency = (output / input) * 100 It is denoted by greek letter Eta Efficiency cannot be more than 100%.
the formula for the volume of a cuboid is length x breadth x height
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.
(bigger dia - smaller dia)/2*taper length
The taper angle is the angle where a thread is tapered as it is created. The formula to find it is to subtract the small diameter from the large diameter and multiply by 28, then divide by the length of the taper.
The formula for calculating the magnitude of acceleration is acceleration change in velocity / time taken.
The formula for calculating strain is: Strain Change in length / Original length. The formula for calculating stress is: Stress Force applied / Cross-sectional area.
The formula for calculating power if you are given a magnetic field is sub 43
The formula for calculating the amplitude of a pendulum is given by the equation: amplitude maximum angle of swing.
The formula for calculating the compression of a spring is: Compression (Force applied to the spring) / (Spring constant)
The formula for calculating total work in physics is: Work Force x Distance.
The formula for calculating velocity in a pipe is velocity flow rate / cross-sectional area.
The formula for calculating the surface area of a sphere is 4πr², where r is the radius of the sphere. This formula represents the area covered by the curved surface of the sphere.