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4. Consider the change of state for 10 moles of ideal gas in a closed system...
1. Show for the ideal gas constant R that the following units equivalency is true, Re8....
1. Show for the ideal gas constant R that the following units equivalency is true, Re8. 3 14 l/K-mol and R«В.З 14 kPa-I/K-mol (l-liters, K«absolute temperature, J"Joules, Pa«Pascal) Please show all steps clearly 2. Cakulate the volume occupied by 20 g of carbon dioxide at a pressure of 1 bar and temperature of 30°C, assuming ide al gas be havior. What is the molar volume of CO2 under these conditions? 3. An ideal gas is heated at a constant pressure...
Consider the isothermal compression of 1 mole of a monatomic ideal gas, initially at a pressure...
Consider the isothermal compression of 1 mole of a monatomic ideal gas, initially at a pressure of 0.5 bar and volume of 4 liters to a final pressure of 2 bar. Calculate the following: a. The work done if the compression is reversible-answer in Joules b. The work done if the compression is irreversible-answer in Joules
Three moles of an ideal gas undergo a reversible isothermal compression at 22.0 ∘C. During this...
Three moles of an ideal gas undergo a reversible isothermal compression at 22.0 ∘C. During this compression, 1700 J of work is done on the gas. Q: What is the change in entropy of the gas? (J/K)
Three moles of an ideal gas undergo a reversible isothermal compression at temperature 17.0 degree C....
Three moles of an ideal gas undergo a reversible isothermal compression at temperature 17.0 degree C. During this compression, an amount of work totalling 1600 J is done on the gas. What is the change of entropy of the gas? What is the change of entropy of the gass?
Ten. moles of ideal gas (monatomic), in the initial state P1=10atm, T1=300K are taken round the...
Ten. moles of ideal gas (monatomic), in the initial state P1=10atm, T1=300K are taken round the following cycle: a. A reversible isothermal expansion to V=246 liters, and b. A reversible adiabatic process to P=10 atm c. A reversible isobaric compression to V=24.6 liters Calculate the change of work (w), heat (q), internal energy (U), and entropy (S) of the system for each process?
8) The diagram below represents the P-V change for one mole of an ideal gas. Start...
8) The diagram below represents the P-V change for one mole of an ideal gas. Start at P1, V1 and follow the arrows. a. Write an expression for the PV work for each one of the legs in the path. b. Write an expression for the total work done for an ideal gas following the path described by the arrows c. What is the change in internal energy for the same path? d. What is the value of heat exchanged...
Please help!! An ideal gas contracts adiabatically as it goes from state 2 to state 1...
Please help!!
An ideal gas contracts adiabatically as it goes from state 2 to state 1 as shown in the figure below. P1t- 2 0 0 Vl V2 If P2-510.7Pa, ½=5.1m3, п-28.6mols, T-125. 1K, and ratio of heat capacities γ=1.67, what is the change in internal energy of the gas as it goes from point 2 to point 1? Answer in Joules.
Part A:See diagram 4. 51.4 moles of a diatomic ideal gas undergo three steps: A to...
Part A:See diagram 4. 51.4 moles of a diatomic ideal gas undergo three steps: A to B is an isobaric (constant pressure P1 = 5.64x106 Pascal) expansion from volume V1 = 0.0854 m3 to V2 = 0.979 m3. B to C is isochoric (constant volume) C to A is isothermal (constant T). Find PC, the pressure at point C, in Pascals. Express in scientific notation. Part B:See diagram 4. 21.6 moles of a diatomic ideal gas undergo three steps: A...
An ideal gas undergoes a constant pressure process that takes it from State 1 to State...
An ideal gas undergoes a constant pressure process that takes it from State 1 to State 2. The pressure of the gas is 144 kPa. During the process there is 304.0 J of heat transfer to the gas and the thermal energy of the gas increases so that Eth,2 - Eth,1 = 202 J. (a) Find the Work done on the gas during this process. J (b) By how much does the volume change? Please enter your answer as a...
An ideal gas undergoes a constant pressure process that takes it from State 1 to State...
An ideal gas undergoes a constant pressure process that takes it from State 1 to State 2. The pressure of the gas is 129 kPa. During the process there is 294.0 J of heat transfer to the gas and the thermal energy of the gas increases so that Eth,2 - Eth,232 J. (a) Find the Work done on the gas during this process (b) By how much does the volume change? Please enter your answer as a posi (c) The...
1. Show for the ideal gas constant R that the following units equivalency is true, Re8. 3 14 l/K-mol and R«В.З 14 kPa-I/K-mol (l-liters, K«absolute temperature, J"Joules, Pa«Pascal) Please show all steps clearly 2. Cakulate the volume occupied by 20 g of carbon dioxide at a pressure of 1 bar and temperature of 30°C, assuming ide al gas be havior. What is the molar volume of CO2 under these conditions? 3. An ideal gas is heated at a constant pressure...
Consider the isothermal compression of 1 mole of a monatomic ideal gas, initially at a pressure of 0.5 bar and volume of 4 liters to a final pressure of 2 bar. Calculate the following: a. The work done if the compression is reversible-answer in Joules b. The work done if the compression is irreversible-answer in Joules
Three moles of an ideal gas undergo a reversible isothermal compression at temperature 17.0 degree C. During this compression, an amount of work totalling 1600 J is done on the gas. What is the change of entropy of the gas? What is the change of entropy of the gass?
8) The diagram below represents the P-V change for one mole of an ideal gas. Start at P1, V1 and follow the arrows. a. Write an expression for the PV work for each one of the legs in the path. b. Write an expression for the total work done for an ideal gas following the path described by the arrows c. What is the change in internal energy for the same path? d. What is the value of heat exchanged...
Please help!!
An ideal gas contracts adiabatically as it goes from state 2 to state 1 as shown in the figure below. P1t- 2 0 0 Vl V2 If P2-510.7Pa, ½=5.1m3, п-28.6mols, T-125. 1K, and ratio of heat capacities γ=1.67, what is the change in internal energy of the gas as it goes from point 2 to point 1? Answer in Joules.
An ideal gas undergoes a constant pressure process that takes it from State 1 to State 2. The pressure of the gas is 129 kPa. During the process there is 294.0 J of heat transfer to the gas and the thermal energy of the gas increases so that Eth,2 - Eth,232 J. (a) Find the Work done on the gas during this process (b) By how much does the volume change? Please enter your answer as a posi (c) The...
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