Problem #2 An ideal gas is taken through a quasi-statie process described by P(V)= With a...
An ideal gas is taken through a quasi-static process described by P = αV2, with α = 7.00 atm/m6, as shown in the figure. The gas is expanded to twice its original volume of 1.00 m3. How much work (in MJ) is done on the expanding gas in this process?
a) An ideal gas is taken through a quasi-static process described by ρ-α 2 with a = 7.50 atm m , as shown in the figure. The gas is expanded to t ce its original volume of 1.00 m3 How much work in is done on the expanding gas in this process? P-aV 1.00 m3 2.00m O (b) What If? How does the work done in part (a) compare to the lowest and highest possible amounts of work that can...
both parts please SerPSE10 19.5.OP.014.MI G My Notes + Ask Your Teacher -13 points How much (a) An ideal gas is taken through a quasi-static process described by P-av, with a-4.70 atm/m work (in MJ) is done on the expanding gas in this process? as shown in the figure. The gas is expanded to twice its original volume of 1.00 m P aV 2.00 m 1.00 m MJ (b) What I7 How does the work done in part (a) compare...
4. An ideal gas with energy NkT is taken through the quasi-static cyélic process shown in the figure at right. What is the change in entropy for each step in the cycle? 8 Pz Isothermal volume 4. An ideal gas with energy NkT is taken through the quasi-static cyélic process shown in the figure at right. What is the change in entropy for each step in the cycle? 8 Pz Isothermal volume
One mole of an ideal monatomic gas is taken through the reversible cycle shown in the figure Volume Process B-C is an adiabatic expansion with PB-13.0 atm and V-4.00x103 m3. The volume at State C is 9.00Vg. Process A-B occurs at constant volume, and Process C A occurs at constant pressure. What is the energy added to the gas as heat for the cycle? Submit Answer Tries 0/10 What is the energy leaving the gas as heat? Submit Answer Tries...
An ideal gas initially at P., V., and is taken through a cycle as shown below. (Let the factor n = 2.7.) Р nP; (a) Find the net work done on the gas per cycle for 2.75 mol of gas initially at 0°C. -23.05 How much work is done on the gas as it goes from A to B and as it goes from C to D? kJ (b) What is the net energy added by heat to the system...
ideal gas follows the process 1->2->3 shown in the PV diagram below An p (atm)v 2 1 100°C isotherm 0 V (cm) 0 100 200 300 How many moles of the ideal gas are present? Answer: 0.0098 mol Check Correct Marks for this submission: 2.00/2.00. How much heat is transferred into or out of the gas during the process 1-2? Answer: 60.8J I Check
TB4 The quasi-static ideal gas cycle shown to the right has three legs, an adiabatic leg #1 from (PyVị) to (P-1 atm, V3), followed by an isobaric compression leg #2 from (P-1 atm, V3) to (P -1 atm,Vi), and ending with a constant volume pressurization leg #3 from (P-1 atm, VI) back to the initial state to complete the cycle. There are n moles of gas. What happens to the internal energy ( Ein) during leg #2 of this process?...
A 1.00 mole sample of an ideal monatomic gas, originally at a pressure of 1.00 atm, undergoes, undergoes a three-step process. (1) It is expanded adiabatically from T1 = 550 K, to T2 = 389 K; (2) it is compressed at constant pressure until the temperature reaches T3; (3) it then returns to its original temperature and pressure by a constant volume process. (a) Plot these processes on a PV diagram. (b) Determine T3. (c) Calculate the change in internal energy, the...
10.0 L of an ideal diatomic gas at 1.00 atm and 200 K are contained in a cylinder with a piston. The gas first expands isobarically to 30.0 L (step 1). It then contracts adiabatically back to its original volume (step 2), and then cools isochorically back to its original pressure (step 3). a) Show the series of processes on a pV diagram. b) Calculate the temperature, pressure, and volume of the system at the end of each step in...