(a) given the energy of an ideal gas is U = (3/2) nRT , derive the...
(a) given the energy of an ideal gas is U = (3/2) nRT , derive the heat capacity at a constant volume V0
(b) derive the heat capacity at a constant pressure P0
(c) is V0 or P0 greater? explain in less than three sentences why
Homework Answers
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(a) given the energy of an ideal gas is U = (3/2) nRT , derive
the...
Given the ideal gas law, PV = nRT, show that (a)-←←=-1 8. (b) From thermodynamics, the...
Given the ideal gas law, PV = nRT, show that (a)-←←=-1 8. (b) From thermodynamics, the relationship between Cp (heat capacity at constant pressure) and C, (heat capacity at constant volume) for an ideal gas is given by: C, ) Simplify the right hand side. (i) Can we conclude that C, > C, for an ideal gas? OT
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...
a. Given that the energy of an ideal gas is a function of temperature only, show...
a. Given that the energy of an ideal gas is a function of temperature only, show how the conclusion can be reached that the enthalpy of an ideal gas is also only a function of temperature. b. Show that for an ideal gas Cp-Cv=R Hint: How much more heat is required to raise the temperature of the gas by 1K if the process is carried out at constant pressure rather than constant volume? Explain.
Given the Ideal Gas Law as PV=nRT, can someone derive the Ideal Gas Law into the...
Given the Ideal Gas Law as PV=nRT, can someone derive the Ideal Gas Law into the form P=rho(R)(T)? This is assuming R=8.314 J mol -1 K -1, na is Avogadro’s number where Avogadro’s number represents the number of point masses N, and that k*na=R.
2. One mole of a monoatomic van der Waals gas obeys the equation of state and its internal energy is expressed as U-Суг...
2. One mole of a monoatomic van der Waals gas obeys the equation of state and its internal energy is expressed as U-Суг_ _ where Cv is the molar isochoric heat capacity of an ideal gas. The gas is initially at pressure p and volume V. (i) Explain the physical meaning of the parameters a and b in the equation of state of the gas (ii) Calculate the heat transferred to the gas during reversible isothermic expansion to the volume...
3. It can be shown that the canonical partition function of an N-particle monatomic ideal gas con...
Please be specific about the solution and thank you so much!
3. It can be shown that the canonical partition function of an N-particle monatomic ideal gas confined to a container of volume V at temperature T is given by 3 Use this partition function to derive an expression for the average energy and the constant- volume heat capacity of the monatomic ideal gas. Note that in classical thermodynamics these quantities were simply given. Your calculations show that these quantities...
Problem 1: Ideal Gas Law Problem 1. The ideal gas law states PV nRT where P,...
Problem 1: Ideal Gas Law
Problem 1. The ideal gas law states PV nRT where P, V, and T are the pressure, volume and absolute temperature; n is the number of moles of gas; and R is the the ideal gas constant. Consider a 1-gallon canister of gas at a pressure of 1 atm. Answer the following questions: 1. How much energy would be needed to increase the pressure of the closed canister to 50 psi without changing its volume?...
Name Ideal Gas Law, Ratios PV=nRT When we have the same ideal gas at two times,...
Name Ideal Gas Law, Ratios PV=nRT When we have the same ideal gas at two times, we can express the ratio equation as P,V, n,RT P,V, n, RT a) Which of the following would be the correct way to solve for the second ter if you held the moles of gas and gas pressure constant but allowed the volume and temperature to vary? v,т, V,T V. 2 V,T, 2 T b) If n and V are held constant and the...
The amount of heat needed to raise the temperature of 1 mole of a substance by...
The amount of heat needed to raise the temperature of 1 mole of a substance by one Celsius degree (or, equivalently, one kelvin) is called the molar heat capacity of the system, denoted by the letter C. If a small amount of heat dQ is put into n moles of a substance, and the resulting change in temperature for the system is dT, then C=1ndQdT. This is the definition of molar heat capacity--the amount of heat Q added per infinitesimal...
A quantity of a monatomic ideal gas undergoes a process in which both its pressure and...
A quantity of a monatomic ideal gas undergoes a process in which
both its pressure and volume are doubled as shown in the figure
above.
DATA:
V0 = 0.39 m3
P0 = 12500 Pa.
A. What is the change of the internal energy of the
gas?
B. What was the work done by the gas during the
expansion?
C. What amount of heat flowed into the gas during the
expansion?
2Po Po 2 Vo Vo 2003 Thomson Brooks/Cole
Given the ideal gas law, PV = nRT, show that (a)-←←=-1 8. (b) From thermodynamics, the relationship between Cp (heat capacity at constant pressure) and C, (heat capacity at constant volume) for an ideal gas is given by: C, ) Simplify the right hand side. (i) Can we conclude that C, > C, for an ideal gas? OT
2. One mole of a monoatomic van der Waals gas obeys the equation of state and its internal energy is expressed as U-Суг_ _ where Cv is the molar isochoric heat capacity of an ideal gas. The gas is initially at pressure p and volume V. (i) Explain the physical meaning of the parameters a and b in the equation of state of the gas (ii) Calculate the heat transferred to the gas during reversible isothermic expansion to the volume...
Please be specific about the solution and thank you so much!
3. It can be shown that the canonical partition function of an N-particle monatomic ideal gas confined to a container of volume V at temperature T is given by 3 Use this partition function to derive an expression for the average energy and the constant- volume heat capacity of the monatomic ideal gas. Note that in classical thermodynamics these quantities were simply given. Your calculations show that these quantities...
Problem 1: Ideal Gas Law
Problem 1. The ideal gas law states PV nRT where P, V, and T are the pressure, volume and absolute temperature; n is the number of moles of gas; and R is the the ideal gas constant. Consider a 1-gallon canister of gas at a pressure of 1 atm. Answer the following questions: 1. How much energy would be needed to increase the pressure of the closed canister to 50 psi without changing its volume?...
Name Ideal Gas Law, Ratios PV=nRT When we have the same ideal gas at two times, we can express the ratio equation as P,V, n,RT P,V, n, RT a) Which of the following would be the correct way to solve for the second ter if you held the moles of gas and gas pressure constant but allowed the volume and temperature to vary? v,т, V,T V. 2 V,T, 2 T b) If n and V are held constant and the...
A quantity of a monatomic ideal gas undergoes a process in which
both its pressure and volume are doubled as shown in the figure
above.
DATA:
V0 = 0.39 m3
P0 = 12500 Pa.
A. What is the change of the internal energy of the
gas?
B. What was the work done by the gas during the
expansion?
C. What amount of heat flowed into the gas during the
expansion?
2Po Po 2 Vo Vo 2003 Thomson Brooks/Cole
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