The internal energy is expressed as U-CKT for two identical bodies, C and K are identical for both. When both these bodies are connected to a Carnot engine, the final temperature of both bodies becomes Tf from their initial temperatures T₁ and T2. Calculate the final temperature. Derive an expression for the work done. BIU GG 周 L SE STET Σ GO

The internal energy is expressed as U-CKT for two identical bodies, C and K are identical for both. When both these bodies are connected to a Carnot engine, the final temperature of both bodies becomes Tf from their initial temperatures T₁ and T2. Calculate the final temperature. Derive an expression for the work done. BIU GG 周 L SE STET Σ GO

Similar questions

A 565 kg roller coaster is poised at the top of a 102.5 m hill. How fast will the roller coaster be going when it travels over the next hill, 40.0 m high?
A 1000 kg car bumps into a wall at 5 m/s. What is the KE just before impact?
A car goes down a 100 incline with a coefficient of friction of 0.3 for 1 m. What is it’s final velocity?
A 50kg child is riding their 3kg skateboard down the street at 5m/s. The child jumps off the front of the skateboard at 6m/s, sending the skateboard flying in the opposite direction. At what speed does the skateboard fly backward?
How far will 350 J raise a 7 Kg mass?
1) An object of mass 750g drops from a height of 5.1m. What is its velocity when it reaches a height of 1.3m? (Use energy to solve this.)
Just trying to finish this homework so I can go home for spring break I appreciate if you can finish this in an hour because it is due. thamk you
A 2000-kg car traveling at 21 m/s takes 51 m to stop under full braking. The same car under similar similar road conditions, traveling at 35 m/s takes m to stop under full braking.