Suppose 2.00 mol of a diatomic gas is taken reversibly around the cycle shown in the T-S diagram of Fig. 20-35. where S 1 = 6.00 J/K and S 2 = 8.00 J/K. The molecules do not rotate or oscillate. What is the energy transferred as heat Q for (a) path 1 → 2, (b) path 2 → 3, and (c) the full cycle? (d) What is the work W for the isothermal process? The volume V 1 in state 1 is 0.200 m 3 . What is the volume in (e) state 2 and (f) state 3? What is the change Δ E int for (g) path 1 → 2, (h) path 2 → 3, and (i) the full cycle? ( Hint: (h) can be done with one or two lines of calculation using Module 19-7 or with a page of calculation using Module 19-9.) (j) What is the work W for the adiabatic process? Figure 20-35 Problem 62.
Suppose 2.00 mol of a diatomic gas is taken reversibly around the cycle shown in the T-S diagram of Fig. 20-35. where S 1 = 6.00 J/K and S 2 = 8.00 J/K. The molecules do not rotate or oscillate. What is the energy transferred as heat Q for (a) path 1 → 2, (b) path 2 → 3, and (c) the full cycle? (d) What is the work W for the isothermal process? The volume V 1 in state 1 is 0.200 m 3 . What is the volume in (e) state 2 and (f) state 3? What is the change Δ E int for (g) path 1 → 2, (h) path 2 → 3, and (i) the full cycle? ( Hint: (h) can be done with one or two lines of calculation using Module 19-7 or with a page of calculation using Module 19-9.) (j) What is the work W for the adiabatic process? Figure 20-35 Problem 62.
Suppose 2.00 mol of a diatomic gas is taken reversibly around the cycle shown in the T-S diagram of Fig. 20-35. where S1 = 6.00 J/K and S2 = 8.00 J/K. The molecules do not rotate or oscillate. What is the energy transferred as heat Q for (a) path 1 → 2, (b) path 2 → 3, and (c) the full cycle? (d) What is the work W for the isothermal process? The volume V1 in state 1 is 0.200 m3. What is the volume in (e) state 2 and (f) state 3?
What is the change ΔEint for (g) path 1 → 2, (h) path 2 → 3, and (i) the full cycle? (Hint: (h) can be done with one or two lines of calculation using Module 19-7 or with a page of calculation using Module 19-9.) (j) What is the work W for the adiabatic process?
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Checkpoint 4
The figure shows four orientations of an electric di-
pole in an external electric field. Rank the orienta-
tions according to (a) the magnitude of the torque
on the dipole and (b) the potential energy of the di-
pole, greatest first.
(1)
(2)
E
(4)
What is integrated science.
What is fractional distillation
What is simple distillation
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