Figure 19-27 shows a cycle undergone by 1.00 mol of an ideal monatomic gas. The temperatures are T 1 = 300 K, T 2 = 600 K. and T 3 = 455 K. For 1 → 2, what are (a) heat Q , (b) the change in internal energy Δ E int , and (c) the work done W ? For 2 → 3, what are (d) Q , (e) Δ E int , and (f) W ? For 3 → 1, what are (g) Q , (h) Δ E int , and (i) W ? For the full cycle, what are (j) Q , (k) Δ E int , and (l) W? The initial pressure at point 1 is 1.00 atm (= 1.013 × 10 5 Pa). What are the (m) volume and (n) pressure at point 2 and the (o) volume and (p) pressure at point 3? Figure 19-27 Problem 63.
Figure 19-27 shows a cycle undergone by 1.00 mol of an ideal monatomic gas. The temperatures are T 1 = 300 K, T 2 = 600 K. and T 3 = 455 K. For 1 → 2, what are (a) heat Q , (b) the change in internal energy Δ E int , and (c) the work done W ? For 2 → 3, what are (d) Q , (e) Δ E int , and (f) W ? For 3 → 1, what are (g) Q , (h) Δ E int , and (i) W ? For the full cycle, what are (j) Q , (k) Δ E int , and (l) W? The initial pressure at point 1 is 1.00 atm (= 1.013 × 10 5 Pa). What are the (m) volume and (n) pressure at point 2 and the (o) volume and (p) pressure at point 3? Figure 19-27 Problem 63.
Figure 19-27 shows a cycle undergone by 1.00 mol of an ideal monatomic gas. The temperatures are T1 = 300 K, T2 = 600 K. and T3 = 455 K. For 1 → 2, what are (a) heat Q, (b) the change in internal energy ΔEint, and (c) the work done W? For 2 → 3, what are (d) Q, (e) ΔEint, and (f) W? For 3 → 1, what are (g) Q, (h) ΔEint, and (i) W? For the full cycle, what are (j) Q, (k) ΔEint, and (l) W? The initial pressure at point 1 is 1.00 atm (= 1.013 × 105Pa). What are the (m) volume and (n) pressure at point 2 and the (o) volume and (p) pressure at point 3?
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The specific heat at constant volume at -200°C of one mole of an ideal diatomic gas isA) 1/2 R. B) R. C) 3/2 R . D)2R. E) I don’t know
In an isothermal process, one mole of an ideal monatomic gas at a temperature T is taken from an initial pressure P to a final pressure P/3. Using the convention that work is positive when it is done on the system, what is the work done during the process in terms of R and T?
Consider 1 mole of an ideal gas at an initial pressure of 1.00 atm and initial temperature of 273.15 K. Assume it expands adiabatically against a pressure of 0.435 atm until its volume doubles. Calculate change in internal energy ΔU (in J) of the process.Answer in 3 SF
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