True False A.deltaU = 0 for a reversible phase change at constant T and P. B....

True or false. If false, explain why. a. The relation G = H – T S...

True or false. If false, explain why. a. The relation G = H – T S is valid for all processes. b. G = A + pV. c. G is undefined for a process in which T changes. d. G = 0 for a reversible phase change at constant T and p. e. G = 0 for a chemical reaction in equilibroum at constant T and p. f. sysS  surrS is positive for every irreversible process. g. fH298 is...

True or False? a. A gas process that is not reversible can be drawn on a...

True or False? a. A gas process that is not reversible can be drawn on a PV diagram b. The work done by the gas is given by the integral of PdV for any reversible process. c. The heat added to a system does not depend on the path taken or whether the process is reversible or not. d. The internal energy of a system is only affected by heat and work. e. In an isothermal process for an ideal...

True or false: The inequality, ΔS > ΔH/T, holds for reversible process at constant pressure.

True or false: The inequality, ΔS > ΔH/T, holds for reversible process at constant pressure.

A closed system containing R-134a initially at 280 kPa and 30 °C undergoes a reversible isothermal...

A closed system containing R-134a initially at 280 kPa and 30 °C undergoes a reversible isothermal process, after which its quality is 0.40. (a) What is the specific heat and work transfer, q and w, experienced by the system? (b) Sketch the process on a T-s diagram, labeling the states and the isobars.

2. p1V1γ= p2V2γ is only correct when (a) a perfect gas undergoes an adiabatic process.        (b)...

2. p1V1γ= p2V2γ is only correct when (a) a perfect gas undergoes an adiabatic process.        (b) a perfect gas undergoes a reversible process. (c) a perfect gas undergoes a reversible adiabatic process.     (d) a real gas undergoes a reversible adiabatic process.      4. If a simple (meaning one-component, single phase) and homogeneous closed system undergoes an isobaric change with expansion work only, how Gibbs free energy varies with temperature?      (a) (G/T)p> 0        (b) (G/T)p< 0      (c) (G/T)p= 0        (d) Depending on...

Let A and B be true, X, Y, and Z false. P and Q have unknown...

Let A and B be true, X, Y, and Z false. P and Q have unknown truth value. Please, determine the truth value of the propositions in problem 1. Please, show the process of calculation by using the letter ‘T’ for ‘true,’ ‘F’ for ‘false,’ and ‘?’ for ‘unknown value’ under each letter and operator. Please underline your answer (truth value under the main operator) and make it into Bold font 1.  [ ( Z ⊃ P ) ⊃ P ]...

Assume that p is a true sentence and q is a false sentence. Then, select the...

Assume that p is a true sentence and q is a false sentence. Then, select the correct standard form and truth value for the following statement: if p then q a). if p then q, true b). if p then q, false c). if q then p, false d). if q then p, true

True/False Indicate whether the statement is true or false by circling one of the letters T...

True/False Indicate whether the statement is true or false by circling one of the letters T / F 40. Materials that are poor heat conductors are insulators. T / F 41. Heat transfer by means of atoms moving from one place to another is conduction. T / F 42. Winds and weather patterns are good examples of radiation currents. T / F 43. When steam changes to liquid water at 100°C, energy is released from the water. T / F...

In class we discussed a reversible, isothermal compression of an ideal gas. The initial point (1)...

In class we discussed a reversible, isothermal compression of an ideal gas. The initial point (1) is an ideal gas in equilibrium at pressure 1 (P1), volume 1 (V1) and temperature (T), and the final point (2) is an ideal gas in equilibrium at pressure 2 (P2), volume 2 (V2) and temperature (T), where V2 d) For each differential step, the change in entropy is given by dS=qrev/T =!!!"#! . Since T is constant , this express ion can be...

a) Calculate delta S(system) for the reversible heating of 1 mol of ethane from 298K to...

a) Calculate delta S(system) for the reversible heating of 1 mol of ethane from 298K to 1500 K at constant pressure. Use Cp = 5.351 + 177.669x10-3 T – 687.01x10-7 T ^2 + 8.514x10-9 T ^3 (J/mol K). Consider the reversible Carnot cycle discussed in class with 1 mol of an ideal gas with Cv=3/2R as the working substance. The initial isothermal expansion occurs at the hot reservoir temperature of Thot=600C from an initial volume of 3.50 L to a...