An engine works with two reservoirs: Ta at 400 degrees Celsius and the other Tb at 200 degrees Celsius. It goes through processes with first adiabatic compression absorbing 150 J then isothermal expansion on Ta then adiabatic expansion then isothermal compression on Tb. Output of the engine operates between the same two reservoirs, with adiabatic expansion, then isothermal expansion at Tbthen adiabatic compression then isothermal compression at Ta. Output of engine runs refrigerator. Suppose temperature is 30 degrees Celsius, and the hot reservoir has spherical tank with a radius of 6.00 m, acting as radition emitter. If all energy emitted by the tank could be contained, what is average amount of work that could be completed each second?
An engine works with two reservoirs: Ta at 400 degrees Celsius and the other Tb at 200 degrees Celsius. It goes through processes with first adiabatic compression absorbing 150 J then isothermal expansion on Ta then adiabatic expansion then isothermal compression on Tb. Output of the engine operates between the same two reservoirs, with adiabatic expansion, then isothermal expansion at Tbthen adiabatic compression then isothermal compression at Ta. Output of engine runs refrigerator.
Suppose temperature is 30 degrees Celsius, and the hot reservoir has spherical tank with a radius of 6.00 m, acting as radition emitter. If all energy emitted by the tank could be contained, what is average amount of work that could be completed each second?
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