Also I wonder if anything will
change if it is change to real gas
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Also I wonder if anything will change if it is change to real gas 2. Consider...
(c) 0.15 moles of He is held in a container with a piston. The gas is...
(c) 0.15 moles of He is held in a container with a piston. The gas is allowed to expand reversibly and isothermally from 1 to 3 dm3. The gas is kept at 350 K. Calculate: (i) The work done if the expansion is carried out reversibly and isothermally. (3 marks) (ii) The heat change grev of the system. (3 marks) (iii) The change in the entropy of the surroundings ASsurr for the expansion. (3 marks) (iii) Calculate ASsys for the...
In both cases below, one mole of an ideal gas is expanded from an initial volume...
In both cases below, one mole of an ideal gas is expanded from an initial volume V to a final volume 2 V. In both cases, the gas is identical and the initial pressure is 2P. The expansion is adiabatic in A and isothermal in B. Will the final temperature of the gas be (i) greater in Case A, (ii) greater in Case B, or (iii) the same in both cases? Explain your reasoning
Consider the adiabatic expansion of an ideal gas into a vacuum where the external pressure equals...
Consider the adiabatic expansion of an ideal gas into a vacuum where the external pressure equals zero. What is ?rev and ∆? for such an experiment? What is ∆? for the ideal gas?
In this problem you are to consider an adiabaticexpansion of an ideal diatomic gas, which means...
In this problem you are to consider an adiabaticexpansion of an ideal diatomic gas, which means that the gas expands with no addition or subtraction of heat. Assume that the gas is initially at pressure p0, volume V0, and temperature T0. In addition, assume that the temperature of the gas is such that you can neglect vibrational degrees of freedom. Thus, the ratio of heat capacities is γ=Cp/CV=7/5. Note that, unless explicitly stated, the variable γ should not appear in...
The volume of a monatomic ideal gas increases by a factor of 2 in an adiabatic...
The volume of a monatomic ideal gas increases by a factor of 2 in an adiabatic expansion. By what factor does its pressure change?
Two moles of an ideal gas initially has a temperature of 400 K and a volume...
Two moles of an ideal gas initially has a temperature of 400 K and a volume of 40 Liters. The gas undergoes a free adiabatic expansion to twice its initial volume. a.) What is the entropy change of the gas? b.) What is the entropy change of the universe? explain please
Consider an ideal gas having initial pressure and volume p_1, V_1 in terms of p_1, V_1...
Consider an ideal gas having initial pressure and volume p_1, V_1 in terms of p_1, V_1 and gamma, write down an expression for the variation of p with V during (a) isothermal expansion, (b) adiabatic expansion, (c) Show that the slope d p/dV of the path on a p-V diagram is steeper for adiabatic processes than for isothermal processes, given that gamma = C_p/C_v> I.
Now consider a sample of 1 mole of a diatomic ideal gas that is initially at...
Now consider a sample of 1 mole of a diatomic ideal gas that is initially at a temperature of 265 kelvin and volume of .2 m^3. The gas first undergoes an isobaric expansion, such that its temperature increases by 120 kelvin. It then undergoes an adiabatic expansion so that its final volume is .360 m^3 a) What is the initial pressure of the gas, in kPa? b) What is the total heat transfer, Q, to the gas, in J? c)...
A monatomic ideal gas is initially at volume, pressure, temperature (Vi, Pi, Ti). Consider two different...
A monatomic ideal gas is initially at volume, pressure, temperature (Vi, Pi, Ti). Consider two different paths for expansion. Path 1: The gas expands quasistatically and isothermally to (Va, Pz. T2) Path 2: First the gas expands quasistatically and adiabatically (V2, P.,T-),where you will calculate P T. Then the gas is heated quasistically at constant volume to (Va. P2 T1). a. Sketch both paths on a P-V diagram. b. Calculate the entropy change of the system along all three segments...
Problem 8: Consider the reversible Carnot's cycle of an ideal monatomic gas in the cold cylinder...
Problem 8: Consider the reversible Carnot's cycle of an ideal monatomic gas in the cold cylinder of 290 K corresponding to the isothermal compression step. Then the volume of the gas is further compressed by a factor of 7.5 in the adiabatic compression step. a) Find the temperature at the final step of the adiabatic compression. b) What is Thot for the isothermal expansion step? c) What is the maximum thermodynamic efficiency for this engine? d) How much would the...
(c) 0.15 moles of He is held in a container with a piston. The gas is allowed to expand reversibly and isothermally from 1 to 3 dm3. The gas is kept at 350 K. Calculate: (i) The work done if the expansion is carried out reversibly and isothermally. (3 marks) (ii) The heat change grev of the system. (3 marks) (iii) The change in the entropy of the surroundings ASsurr for the expansion. (3 marks) (iii) Calculate ASsys for the...
Consider an ideal gas having initial pressure and volume p_1, V_1 in terms of p_1, V_1 and gamma, write down an expression for the variation of p with V during (a) isothermal expansion, (b) adiabatic expansion, (c) Show that the slope d p/dV of the path on a p-V diagram is steeper for adiabatic processes than for isothermal processes, given that gamma = C_p/C_v> I.
A monatomic ideal gas is initially at volume, pressure, temperature (Vi, Pi, Ti). Consider two different paths for expansion. Path 1: The gas expands quasistatically and isothermally to (Va, Pz. T2) Path 2: First the gas expands quasistatically and adiabatically (V2, P.,T-),where you will calculate P T. Then the gas is heated quasistically at constant volume to (Va. P2 T1). a. Sketch both paths on a P-V diagram. b. Calculate the entropy change of the system along all three segments...
Problem 8: Consider the reversible Carnot's cycle of an ideal monatomic gas in the cold cylinder of 290 K corresponding to the isothermal compression step. Then the volume of the gas is further compressed by a factor of 7.5 in the adiabatic compression step. a) Find the temperature at the final step of the adiabatic compression. b) What is Thot for the isothermal expansion step? c) What is the maximum thermodynamic efficiency for this engine? d) How much would the...
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