Write the steps otherwise points will be reduced. (1) Let P=nRT V-nb Find the following: a)...

Question

Question

Write the steps otherwise points will be reduced. (1) Let P=nRT V-nb Find the following: a) b)

science chemistry

Answer 1

Answer #1

av JT av JT An OTV r-nb

Answer 2

Similar Homework Help Questions

IGL: PV = nRT VdW: ( P + an2/V2 )( V – nb ) = nRT...

IGL: PV = nRT VdW: ( P + an2/V2 )( V – nb ) = nRT where a and b are constants specific to the gas. 1.) CO2 behaves likes a Van der Waals gas with constants a = 0.364 J.m3/mol2 and b = .000043 m3/mol. If 2.5 moles of CO2 is put in a cubical tank (each side is 10cm) at 400K, what would be the pressure? What would be the force the gas exerts on each face of...
2. Derive an expression for (as) for a gas with the equation of state: P(V-nB) = nRT, where B is a constant. 2. De...

2. Derive an expression for (as) for a gas with the equation of state: P(V-nB) = nRT, where B is a constant. 2. Derive an expression for (as) for a gas with the equation of state: P(V-nB) = nRT, where B is a constant.
For a Van der Waals gas, the following equations hold. P = nRT/(V−nb) − a(n/V)2 dU...

For a Van der Waals gas, the following equations hold. P = nRT/(V−nb) − a(n/V)2 dU = CV dT + a(n/V)2 dV For chlorine gas, CV,m = 25.6 J K−1 mol−1, a = 6.343 bar L2 mol−2, and b = 0.0542 L mol−1. Calculate q, w, ΔU, and ΔH, in joules, when one mole of chlorine gas is expanded isothermally and reversibly at 449 K from 7.0 L to 15.0 L.

Van der Waals equation of state is (P+(n2a)/V2)(V-nb)=nRT where a and b are temperature-independent parameters that...

Van der Waals equation of state is (P+(n2a)/V2)(V-nb)=nRT where a and b are temperature-independent parameters that have different values for each gas. For CO2, a=0.3640 Pa m6/mol2 and b=4.267*10-5 m3/mol a) Write this equation as a cubic equation in V
If P = nRT/(V-n), then which of the following is false? A. PV = nRT +...

If P = nRT/(V-n), then which of the following is false? A. PV = nRT + Pn B. 0 = RT + P – PV/n C. V = nPRT + nP2 D. 1 = nRT/PV + n/V E. V = (nRT/P) + n
For a Van der Waals gas, the following equations hold. P = nRT/(V−nb) − a(n/V)2 dU...

For a Van der Waals gas, the following equations hold. P = nRT/(V−nb) − a(n/V)2 dU = CV dT + a(n/V)2dV For chlorine gas, CV,m = 25.6 J K−1 mol−1, a = 6.343 bar L2 mol−2, and b = 0.0542 L mol−1. Calculate q, w, ΔU, and ΔH, in joules, when one mole of chlorine gas is expanded isothermally and reversibly at 449 K from 7.0 L to 15.0 L. Enter your answers accurate to the nearest joule. Do not include...

An equation of state for a system is determined to be given by the following: P^(3/4)*(V...

An equation of state for a system is determined to be given by the following: P^(3/4)*(V - nb) = nRT Show that the expansivity, B, is given by the following: B = (V - nb) / (TV)
1. A gas (1.00 mol) obeying the following equation of state (EOS) is compressed from P = 1.00 atm to P = 2.00 atm isoth...

1. A gas (1.00 mol) obeying the following equation of state (EOS) is compressed from P = 1.00 atm to P = 2.00 atm isothermally (300K) and reversibly: nRT P = v nb (a) (5 points) Calculate the entropy change, AS. (b) (10 points) Calculate the amount of heat () and work (w) involved. What does the total energy change (AU) tell you about the internal energy of this system?
0, otherwise Let f(x,y)= 3. Sketch the region of integration Find k. Find P(X |Y 1/4)...

0, otherwise Let f(x,y)= 3. Sketch the region of integration Find k. Find P(X |Y 1/4) Find P(X |Y=1/4) a. b. c. d.

Using the formula PV = nRT and the following given information: P = 0.520 atm (H2)...

Using the formula PV = nRT and the following given information: P = 0.520 atm (H2) V = 30.0 mL R = 0.69 T = 22.1 degrees Celsius find the number of Hydrogen moles produced