To calculate the work output of a machine, you can use the formula: Work output = (force applied) x (distance moved in the direction of the force). This formula takes into account the amount of force applied and the distance over which the force is applied to determine the work done by the machine.
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Piece-work employees
To calculate power from the ideal gas equation PV = nRT, you need to know the amount of work done in the system. Power is equal to the rate at which work is done, which is measured in joules per second (watts). To calculate power, you need to use the formula Power = Work / Time, where Work = PĪV for a constant pressure process.
force times dictance
Power requirements are measured in KVA, which stands for Kilo-Volt-Amperes. To calculate the amount of power you require you would use the following formula. KVA = Volts * Amps / 1000
To calculate the conversion of steam to condensate, you can use the formula: Steam Converted to Condensate = Steam Inlet - Steam Outlet This formula subtracts the amount of steam leaving the system (Steam Outlet) from the amount of steam entering the system (Steam Inlet) to determine the amount of steam that has been converted to condensate.
You can use a graph to calculate speed.
There are a number of formulas that will work to calculate a population's growth rate. You could use births minus deaths in a year for example.
function
You need not only the weight but how far it is moved (lifted). Let us say 1 meter. The formula is: force x distance = work 150 nt x 1 m = 150 nt-m
Work done is calculated using the formula: Work = Force x Distance. If you have the result in joules and the time taken, you can calculate the power using the formula: Power = Work / Time. So, you can determine the power required to do 200j of work in 20s.