#Work done physics calculator free
This tool is also free and you don’t need to have to register to use this tool. We don’t show you the step by step solution but we will directly show you how you will be able to do it.
In this tool we have mentioned in which box what value you have to enter.Įven we have also provided an example how you will be able to get the Solution. It’s really easy to use and the interface of this tool is really simple. This tool will help you whenever you want and this will be good if you will use it. Work Calculator is a great tool to use to solve problem online. magnetic force on straight current carrying wire.Rotational and periodic motion calculators Numerical Analysis - Numerical Differentiation Tools Improper fraction to mixed number calculator.Mixed number to Improper fraction calculator.Turbo Machines - Specific Work done by Pumps, Compressors or Fans - Calculate specific work done by pumps, fans, compressors or turbines.Torque - Work done and Power Transmitted - The work done and power transmitted by a constant torque.Stair Calculator - Calculate steps, unit rise and run in a stair.Pumps - Power Calculator - Calculate pumps hydraulic and shaft power.Power - Power is the rate at which work is done or energy converted.Potential Energy - Hydropower - Elevation and potential energy in hydropower.Impact Force - Impact forces acting on falling objects hitting the ground, cars crashing and similar cases.Force - Newton's third law - force vs.Energy - Energy is the capacity to do work.Bodies Moving on Inclined Planes - Acting Forces - Required forces to move bodies up inclined planes.Thus power generation processes and energy sources actually involve conversion of energy from one form to another, rather than creation of energy from nothing. 1st Law of Thermodynamics - The First Law of Thermodynamics simply states that energy can be neither created nor destroyed (conservation of energy).Thermodynamics - Work, heat and energy systems.Mechanics - Forces, acceleration, displacement, vectors, motion, momentum, energy of objects and more.Dynamics - Motion - velocity and acceleration, forces and torque.Power is the ratio of work done to used time - or work done per unit time. P = pressure on a surface A, or in a volume (Pa, N/m 2)ĭV = change in volume for acting pressure p (m 3) The work done per revolution (2 π radians) can be calculated asįorce can be exerted by weight or pressure:ĭs = distance moved for acting force, or acting pressure (m) = 1 N/m Work done by Moment and Rotational DisplacementĪ machine shaft acts with moment 300 Nm. The spring constant can be calculated by modifying eq. The spring force is variable - from 0 N to 1 N as indicated in the figure above - and the work done can be calculated as The work done when a spring is compressed or stretched can be expressed asį spring_max= maximum spring force (N, lb f)Ī spring is extended 1 m. The force is zero with no extension or compression and the work is the half the product force x distance and represented by the area as indicated. The work done by a spring force is visualized in the chart above. The force exerted by springs varies with the extension or compression of the spring and can be expressed with Hooke's Law as = 15000 ft lb Work done by a Spring Force The work made by a person of 150 lb climbing a stair of 100 ft can be calculated as = 392 (J, Nm) Example - Work when Climbing Stair - Imperial units The force acting on the brick is the weight and the work can be calculated as The work done can be calculated asĮxample - Work done when lifting a Brick of mass 2 kg a height of 20 m above ground Example - Constant Force and WorkĪ constant force of 20 N is acting a distance of 30 m. The work is the product force x distance and represented by the area as indicated in the chart. The work done by a constant force is visualized in the chart above. The unit of work in SI units is joule (J) which is defined as the amount of work done when a force of 1 Newton acts for distance of 1 m in the direction of the force. S = distance object is moved in direction of force (m, ft) The amount of work done by a constant force can be expressed asį = constant force acting on object (N, lb f) When a body is moved as a result of a force being applied to it - work is done.
0 kommentar(er)
