Problem 2: Four Processes are shown below. Each process occurs in a well-insulated piston cylinder assembly and starts from the same initial state, state 1. Put the final temperatures in order from highest to lowest. Explain. Weightless, frictionless piston M T₁ P₁ State 1 MT=M Patm Weightless, frictionless piston Patm -- ТА State A om P₁ Well State 1 Insulated Process A P atm Weightless, frictionless piston TB State B M M MT=M T₁ P₁ State 1 Weightless, frictionless piston Well Well Insulated Insulated Patm Patm Process D ªo Fª Process B T₁ T₁ M Patm am P₁ Well State 1 Insulated Process C M M a) In Process A, a large block of mass M is removed from the piston. b) In Process B, an equivalent mass M is removed in incremental amounts. c) In Process C, a large block of mass M is placed on the piston. d) In Process D, an equivalent mass M is added in incremental amounts. Tc State C Patm M TD Patm State D

Please provide simple explanation for each process temp.

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**Problem 2:** Four Processes are shown below. Each process occurs in a well-insulated piston cylinder assembly and starts from the same initial state, state 1. Put the final temperatures in order from highest to lowest. **Explain.** **Diagrams:** - **State 1:** - All processes start with a weightless, frictionless piston under atmospheric pressure \( P_{\text{atm}} \) with initial temperature \( T_1 \) and pressure \( P_1 \). - **Process A:** - Transition to State A occurs by completely removing a large block of mass \( M \) from the piston. - The final state (State A) shows a well-insulated piston with temperature \( T_A \). - **Process B:** - Transition to State B occurs by removing an equivalent mass \( M \) incrementally. - The final state (State B) is shown with a well-insulated piston and temperature \( T_B \). - **Process C:** - Transition to State C occurs by placing a large block of mass \( M \) on the piston. - The final state (State C) is depicted with temperature \( T_C \). - **Process D:** - Transition to State D happens by adding an equivalent mass \( M \) in incremental amounts. - The final state (State D) shows a system with temperature \( T_D \). **Processes Explanation:** a) In **Process A**, a large block of mass \( M \) is removed from the piston. b) In **Process B**, an equivalent mass \( M \) is removed in incremental amounts. c) In **Process C**, a large block of mass \( M \) is placed on the piston. d) In **Process D**, an equivalent mass \( M \) is added in incremental amounts.