Consider an ideal monatomic gas (N gas atoms) in a cubic box (with box length of...
Consider an ideal monatomic gas (N gas atoms) in a cubic box (with box length of a) and is kept at temperature (T) and pressure (P). Assume the collision is elastic. The average random velocity square of all gas atoms is v2.
What is the total energy of this system?
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Consider an ideal monatomic gas (N gas atoms) in a cubic box
(with box length of...
B.2 The multiplicity of a monatomic ideal gas is given by 2 = f(N)VN U3N/2, where...
B.2 The multiplicity of a monatomic ideal gas is given by 2 = f(N)VN U3N/2, where V is the volume occupied by the gas, U its internal energy, N the number of particles in the gas and f(N) a complicated function of N. [2] (i) Show that the entropy S of this system is given by 3 S = Nkg In V + ŽNkg In U + g(N), where g(N) is some function of N. (ii) Define the temperature T...
A monatomic ideal gas is sealed in a box whose volume doesn't change. Adding heat to...
A monatomic ideal gas is sealed in a box whose volume doesn't change. Adding heat to the ideal gas will result in what change(s)? Check all that apply. a. decrease of the pressure of the ideal gas b. increase of the internal energy of the ideal gas c. increase of the temperature of the ideal gas d. decrease of the internal energy of the ideal gas e. decrease of the temperature of the ideal gas f. increase of the pressure...
A sample of n moles of a monatomic ideal gas is expanded isothermally and reversibly at...
A sample of n moles of a monatomic ideal gas is expanded isothermally and reversibly at a constant temperature T from a volume V to 3V. Note that since the temperature of the gas is constant, the internal energy will remain constant. a) Write an expression for the change in entropy ΔS for the system. b) The sample has 7 moles of gas and is kept at a temperature of 305 K. The volume is changed from 0.065 m3 to...
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...
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...
prove that the internal energy of a monatomic ideal gas depends only on its temperature (start...
prove that the internal energy of a monatomic ideal gas depends only on its temperature (start with the change of momentum of one gas particle after its collision with a wall of the container where the ideal gas is filled in, look for the link between the pressure and the kinetic energy of the ideal gas)
For this question. Why cannot use PV=NRT? (a) An ideal monatomic gas is kept in a...
For this question. Why cannot
use PV=NRT?
(a) An ideal monatomic gas is kept in a container of volume 2.1x10 m', temperature 310 K and pressure 5.3x10 Pa (i) State what is meant by an ideal gas (ii) Calculate the number of atoms in the gas »2.6x1022 kT 1.38x10-23 x 310
An ideal monatomic gas initially has a temperature of T and a pressure of p. It is to expand...
An ideal monatomic gas initially has a temperature of T and a pressure of p. It is to expand from volume V1 to volume V2. If the expansion is isothermal, what are thefinal pressure pfi and the work Wi done by the gas? If, instead, the expansion is adiabatic, what are the final pressure pfa and the work Wa done by the gas? Stateyour answers in terms of the given variables.
Thermodynamics Consider an insulated container of volume V2. N ideal gas molecules are initially confined within...
Thermodynamics
Consider an insulated container of volume V2. N ideal gas molecules are initially confined within a sub-volume (V1) by a piston and the remaining volume V2 - Viis in vacuum. Let T., P., U1, S1, A1, H1, and G1 be the temperature, pressure, internal energy, entropy, Helmholtz free energy, enthalpy, and Gibbs free energy of the ideal gas at this state, respectively. Now, imagine that the piston is removed so that the gas has volume V2. After some time...
A monatomic ideal gas initially fills a container of volume V = 0.15 m3 at an...
A monatomic ideal gas initially fills a container of volume V = 0.15 m3 at an initial pressure of P = 360 kPa and temperature T = 275 K. The gas undergoes an isobaric expansion to V2 = 0.55 m3 and then an isovolumetric heating to P2 = 680 kPa. a) Calculate the number of moles, n, contained in this ideal gas. b) Calculate the temperature of the gas, in kelvins, after it undergoes the isobaric expansion. c) Calculate the...
B.2 The multiplicity of a monatomic ideal gas is given by 2 = f(N)VN U3N/2, where V is the volume occupied by the gas, U its internal energy, N the number of particles in the gas and f(N) a complicated function of N. [2] (i) Show that the entropy S of this system is given by 3 S = Nkg In V + ŽNkg In U + g(N), where g(N) is some function of N. (ii) Define the temperature T...
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...
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...
For this question. Why cannot
use PV=NRT?
(a) An ideal monatomic gas is kept in a container of volume 2.1x10 m', temperature 310 K and pressure 5.3x10 Pa (i) State what is meant by an ideal gas (ii) Calculate the number of atoms in the gas »2.6x1022 kT 1.38x10-23 x 310
Thermodynamics
Consider an insulated container of volume V2. N ideal gas molecules are initially confined within a sub-volume (V1) by a piston and the remaining volume V2 - Viis in vacuum. Let T., P., U1, S1, A1, H1, and G1 be the temperature, pressure, internal energy, entropy, Helmholtz free energy, enthalpy, and Gibbs free energy of the ideal gas at this state, respectively. Now, imagine that the piston is removed so that the gas has volume V2. After some time...
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