Work is equal to the energy used to move an object. Shown as:
work done (Joules) = Force (Newtons) X Distance moved (metres)
Thermodynamics is the study of the relationship between thermal energy and heat and work.
Work is the transfer of mechanical energy; its units are the same as for energy, for example joule. Power is the rate of transfer of energy, and it has units of energy/time, for example watt.
the relationship of free energy to stability, work capacity, and spontaneous change is that it is unstable systems are rich in free energy, or G. They have a tendency to change spantaneously to more stable state , and it is possible to harness this " down hill" change to perform work.
Work is the quantity of energy being transfered (i.e. potential to kinetic). It is due to work that energy is transfered between potential and kinetic and vice versa. This is an attribute of the first law of thermodynamics. Energy is also the ability to do work
It is the same - work done is weight x height and potential energy change is the same at the new height
Thermodynamics is the study of the relationship between thermal energy and heat and work.
Work is the transfer of mechanical energy; its units are the same as for energy, for example joule. Power is the rate of transfer of energy, and it has units of energy/time, for example watt.
Thermodynamics - studies the relationship of heat and temperature, energy and work.
Energy is the ability to do work. Force is something that changes motion.
the relationship of free energy to stability, work capacity, and spontaneous change is that it is unstable systems are rich in free energy, or G. They have a tendency to change spantaneously to more stable state , and it is possible to harness this " down hill" change to perform work.
Work output is less than or equal to the work input. This is the law of conservation of energy.
Work is the quantity of energy being transfered (i.e. potential to kinetic). It is due to work that energy is transfered between potential and kinetic and vice versa. This is an attribute of the first law of thermodynamics. Energy is also the ability to do work
Potetial energy is the energy an object has because of its position or location, or its energy of position.
if only heat change is the only change then energy difference is the amount of work done.
Force is the rate of exchange of momentum, while energy is something that is conserved. While they are different, they have a close relationship. Energy is what you get when you apply a force over a distance. Specifically, Energy = Work= ∫Fdx. If the force is constant then, Energy = Work = F*Δx
there is a relationship they produce temperature.
Work is usually used for transfer of energy. If you transfer energy to an object, you "do work" on the object.Heat is simply one type of energy.Further AnswerWork (W) describes changing one form of energy into another. Heat (Q) describes energy in transit from a warmer body to a cooler body. So change in energy is the difference between work and heat.change of energy = W - Q