Consider an ideal gas of N molecules, in equilibrium in a container of volume V . Calculate a. the probability p1 of finding all molecules concentrated in a volume V /3 (macrostate 1); b. the probability p2 of finding all molecules concentrated in a volume 2V /3 (macrostate 2); c. the probability p of finding N/3 of the molecules concentrated in a volume V / 3 and the others in the remaining volume; d. the entropy difference ∆S = S2 - S1 between states 1 and 2; e. the numerical values of p1, p2, and p for N = 9.

Consider an ideal gas of N molecules, in equilibrium in a container of volume V . Calculate a. the probability p1 of finding all molecules concentrated in a volume V /3 (macrostate 1); b. the probability p2 of finding all molecules concentrated in a volume 2V /3 (macrostate 2); c. the probability p of finding N/3 of the molecules concentrated in a volume V / 3 and the others in the remaining volume; d. the entropy difference ∆S = S2 - S1 between states 1 and 2; e. the numerical values of p1, p2, and p for N = 9.

Related questions

Q: The average kinetic energy of a molecule in a monatomic ideal gas is given by: b. ¾½ kBT 3 d. none…

Q: Suppose we have a macroscopic amount (~ moles) of argon gas in thermodynamic equilibrium at STP…

A: Using Maxwell Boltzmann distribution for speed at STP conditions, we can solve the problem as solved…

Q: P2 657°C Isothermal 2.0 atm 37°C V(L) V3 The figure (not to scale) shows a pV diagram for 2.1 g of…

Q: You may want to review (Pages 503 - 508). Figure < 1 of 1 p (atm) 3- 1 V (cm) 300 100 200 2.

Q: Two moles of an ideal monatomic gas initially at 350 K is expanded from an initial pressure of 10…

A: To calculate the change in internal energy, heat exchanged, work done, change in enthalpy and final…

Q: An ideal gas of 2.0x1021 molecules is placed in a container that has a volume of 10.5 x 10 3 m and…

Q: 1- a) Consider a physical system composed of N identical particles confined to a space of volume V.…

A: Solution: a) A physical system composed of N identical particles confined to a space of volume V.…

Q: 1. The average kinetic energy of an ideal gas molecule is 3, (KE) = ;kgT (a) Air is mostly diatomic…

Q: 2 mol of an ideal monoatomic gas moves from State 1 to State 2 P at constant pressure 1000 Pa and…

A: To find work done in isobaric process.(since pressure remains constant) W = ∫PdV = P∆V Since P =…

Q: Suppose you double the pressure of an ideal gas, where the temperature is kept Constant. Use the…

A: The initial pressure of the gas is, P1=P The final pressure of the gas is, P2=2P

Q: Under what conditions of volume does a van der Waals gas behave like an ideal gas? Use the van der…

A: Question Under what conditions of volume does a van der Waals gas behave like an ideal gas?

Q: In the simple kinetic theory of a gas we discussed in class, the molecules are assumed to be…

A: Mean free path of a gas molecule is given by, λ=V4π2×r2×Nwhere, Mean Free path is "λ"Volume of 1…

Q: 1) A thermally insulated system consists of 1.00 mol of a diatomic gas at 127 K and 2.00 mol of a…

Q: Given the partition function of a certain gas is given by Z= C (V-nb)N (T3N/2), then the pressure is…

Q: 1) The figure (not to scale) shows a pV diagram for 3.2 g of neon gas (Ne) that undergoes the…

Q: Which equation correctly represents the total internal (thermal) energy of a monatomic gas with N…

Q: The average kinetic energy of an ideal gas molecule is (KE) = kpT (a) Air is mostly diatomic…

A: “Since you have asked multiple question, we will solve the first question for you. If you want any…

Q: One cubic meter (1 m³) of mono-atomic ideal gas, is initially at room temperature and atmo- spheric…

A: Hello, since your question has multiple sub-parts, we will solve the first three sub-parts for you.…

Q: State-of-the-art vacuum equipment can attain pressures as 3.0 x 10-11 Pa. Suppose that a chamber…

Q: b. A gas changes its state quasi-statically from A to C along the paths shown in Figure. Rank the…

A: Let, the pressure of the gas at the points D and C be 'P1' and the pressure at points A and B be…

Q: The pressure exerted by 1 M an ideal gas is P -C², where the 3 V . symbols have their usual meaning.…

Q: Air is kept inside a rigid container at a temperature of 300 K and an absolute pressure of 2.00 x…

Q: The figure (not to scale) shows a pV diagram for 10 dg of helium gas (He) that undergoes the process…

Q: 21) You find that the heat capacity at constant volume for 3 moles of a substance is 9R, where R is…

Q: piston mA ideal gas A movable piston (mass = m and cross-sectional area = A) holds 0.5 mol of an…

Q: A 5.00-mol sample of oxygen gas is confined to a pressure of 5 atm at a temperature of 27 degrees…

A: Given values: Temperature, T=27 °C Pressure, P=5 atm Molecular mass of oxygen gas, M=32 g

Q: Number of molecules in 8.467x10-2 mol C6H6. nificant

A: no of molecules =no of moles of substance(Na)where Na is 6.023x1023 thus,no of…

Q: 7. A container holds 5.00kg of oxygen (0,) gas in a volume of V =8.25x10m²at room temperature, T…

A: The molar mass of oxygen, O2

Q: Suppose you have 2.86 moles of an ideal gas. What is the average kinetic energy of that gas (in…

A: number of moles of ideal gas (n) = 2.86Temperature (T) = 279.1 K

Q: 9. Diffusion across a one-dimensional slab C₁=Co x=0 a) C. (z) b) Ci(z) = c) C₁(z) = d) C.(z)=(1-1)…

Q: 7. Now suppose that the box contains 1023 gas molecules. Use your formula to calculate the…

Q: A rigid container of volume 0.1 m^3 contains uranium hexafluoride (UF6) gas at a pressure of…

A: Given Data: Volume (V) = 0.1 m3.Pressure (P) = 1.0×106 Pa.Temperature (T) = 300 K. It is known that:…

Q: Learning Goal: To understand the ideal gas law and be able to apply it to a wide variety of…

Q: 4. A horizontal piston-cylinder system containing n mol of ideal gas is surrounded by air at…

A: Given a piston fitted cylinder containing n mole of an ideal gas at temperature T0 and pressure p0 .…

Q: i. ii. iii. A mole of an ideal gas of vibrating diatomic molecules at initial temperature Ti is…

Q: Consider the equation: (1 + 7) Ах др p) ax\g Bg ax) a Ax 1 2 (OP) Ax a HgBg p² ax Ax = 0 1 Vь д Beac…

A: Given PDE : - - - (1)Klinkenberg equation is used to determine the relation between liquid…

Q: The ideal gas law is a very simple mathematical relationship that relates several physical…

A: Ideal gas law:- It is the equation of state for an ideal gas. PV =…

Q: 2. Consider a monatomic gas in a 2-dimensional box with a rectangular area A. The velocity…

Question

Consider an ideal gas of N molecules, in equilibrium in a container of volume V . Calculate
a. the probability p1 of finding all molecules concentrated in a volume V /3 (macrostate 1);
b. the probability p2 of finding all molecules concentrated in a volume 2V /3 (macrostate 2);
c. the probability p of finding N/3 of the molecules concentrated in a volume V / 3 and the others
in the remaining volume;
d. the entropy difference ∆S = S2 - S1 between states 1 and 2;
e. the numerical values of p1, p2, and p for N = 9.

Expert Solution