1. Find the work done in the quasi-static processes shown below. The states are given as (p, V) values for the points in the pV plane: 1 (3 atm, 4 L), 2 (3 atm, 6 L), 3 (5 atm, 4 L), 4 (2 atm, 6 L), 5 (4 atm, 2 L). Use the conversions 1 atm ≈1 05 Pa, and 1 L-10-3 m³. (a) W₁2= = (b) W13= = (C) W₁4 = = (d) W153 = = РА PL (a) (c) 2 P РА (b) (d) 3 V

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**Problem 1: Quasi-static Work Calculation** **Description:** This problem involves calculating the work done in various quasi-static processes presented in a Pressure (P) vs Volume (V) graph. The states provided are point pairs with specific pressure and volume values on a P-V plane. To complete the calculations, the following conversions should be used: 1 atm ≈ 1 x 10^5 Pa, and 1 L = 10^-3 m³. **States:** 1. (3 atm, 4 L) 2. (3 atm, 6 L) 3. (5 atm, 4 L) 4. (2 atm, 6 L) 5. (4 atm, 2 L) **Graphs:** - **Graph (a)**: Illustrates a horizontal process from state 1 (3 atm, 4 L) to state 2 (3 atm, 6 L). - **Graph (b)**: Illustrates a vertical process from state 1 (3 atm, 4 L) to state 3 (5 atm, 4 L). - **Graph (c)**: Illustrates an inclined process from state 1 (3 atm, 4 L) to state 4 (2 atm, 6 L). - **Graph (d)**: Illustrates a combined process from state 1 (3 atm, 4 L) to state 5 (4 atm, 2 L), passing through state 3 (5 atm, 4 L). **Required Work Calculations:** (a) \( W_{12} \) = [Calculate the work done from state 1 to state 2 in Joules] (b) \( W_{13} \) = [Calculate the work done from state 1 to state 3 in Joules] (c) \( W_{14} \) = [Calculate the work done from state 1 to state 4 in Joules] (d) \( W_{153} \) = [Calculate the work done from state 1 to state 3 via state 5 in Joules] **Tasks:** 1. **Calculate the Work Done in the Given Processes:** - Use the formula \( W = P \Delta V \) for horizontal processes. - For non-horizontal processes, integrate \( W = \int_{V_i}^{V_f} P \, dV \) assuming specific P-V relationships if needed