To determine the fps (feet per second) of a projectile with 12 ft-lbs (foot-pounds) of energy, you need to consider the weight of the projectile. This calculation involves using the formula: fps = β(2 * energy / weight). A typical airgun pellet weighing 8.2 grains and fired with 12 ft-lbs of energy would travel at approximately 715 fps.
The number of foot-pounds doesn't directly translate to FPS (feet per second) as other factors like bullet weight, shape, and size also play a role. However, there are online calculators available where you can input the energy in foot-pounds and the bullet weight to get an estimated velocity in FPS.
14nM is about 10.33 ft-lbs.
15 ft-lbs is about 20.34 newton meters.
132 inch pounds is equivalent to 11 foot pounds, as there are 12 inches in a foot.
To calculate the foot-pounds required to lift a weight, multiply the weight in pounds by the distance in feet. In this case, lifting 1500 pounds a distance of 60 inches (which is 5 feet) would require 1500 pounds * 5 feet = 7500 foot-pounds of work.
299.93 fps.
The number of foot-pounds doesn't directly translate to FPS (feet per second) as other factors like bullet weight, shape, and size also play a role. However, there are online calculators available where you can input the energy in foot-pounds and the bullet weight to get an estimated velocity in FPS.
6
152
4 ft and 90 pounds to 30 ft and 10 tons
within 50 ft - 400 to 450 fps within 100 ft- 500 and up fps
In the fps system, gravity is typically represented as 32.174 ft/sΒ². This value is commonly used in physics calculations in the United States.
25 inch pounds = 2.08333333 foot pounds
Ft/sec=Miles(x5280 ft/mi)/hour(x3600 sec/hr)
Filled to capacity, the 1-ft cubed tank will hold 7.481 gallons of water.
14nM is about 10.33 ft-lbs.
Twelve feet is four yards.