Show that, Cp-Cv = alpha^2 TV / Kt   Kt= -1/v *(∂V/ ∂P)T

The equation given below, CP=CV+TV(β2/κ), links CP and CV with β and κ. Use this equation...

The equation given below, CP=CV+TV(β2/κ), links CP and CV with β and κ. Use this equation to evaluate CP−CV for an ideal gas. CP=CV+T(∂P∂T)V(∂V∂T)P=CV−T(∂V∂T)2P(∂V∂P)T CP=CV+TVβ2κorCP,m=CV,m+TVmβ2κ Express your answer in terms of some or all of the variables T, P, β, κ, n, and R

Express the following in terms of αp, βT, Cv, Cp, S, V, T, P. ∂G/∂P at...

Express the following in terms of αp, βT, Cv, Cp, S, V, T, P. ∂G/∂P at constant S.

prove that ds=Cp*(dv/v)+CV*(dp/p) for an ideal gas and using this result give relation for isentropic change....

prove that ds=Cp*(dv/v)+CV*(dp/p) for an ideal gas and using this result give relation for isentropic change. only answer if you know with clear explanation, otherwise I will rate badly. thanks.

1. (a) State the First Law of Thermodynamics. (b) Derive a simple relation: Cp - Cv...

1. (a) State the First Law of Thermodynamics. (b) Derive a simple relation: Cp - Cv = R, between the molar heat capacity at constant pressure Cp and the molar heat capacity at constant volume Cv for an ideal gas, as shown in class. Can you explain why Cp > Cv.

Calculate the change in entropy for 3 moles of an ideal gas with Cp=(9/2)R and Cv=(7/2)R,...

Calculate the change in entropy for 3 moles of an ideal gas with Cp=(9/2)R and Cv=(7/2)R, undergoing the following quasi-static process. The gas is initially at T=350K, and is being compressed from 4 m3 to 1 m3 in a perfectly insulated container.

Derive gamma=mc^2/RT for an ideal gas derive cp-cv=R

Derive gamma=mc^2/RT for an ideal gas derive cp-cv=R

Let T = (V, E) be a tree with |V | ≥ 2. Show that T...

Let T = (V, E) be a tree with |V | ≥ 2. Show that T has at least two vertices with degree 1.

1) A quantity of n moles of oxygen gas (CV = 5R/2 and Cp = 7R/2)...

1) A quantity of n moles of oxygen gas (CV = 5R/2 and Cp = 7R/2) is at absolute temperature T. You increase the absolute temperature to 2T. Find the change in internal energy of the gas, the heat flow into the gas, and the work done by the gas if the process you used to increase the temperature is isochoric. Express your answers in terms of the variables n, R, and T separated by commas. 2) Find the change...

Let V = R1[x], consider the map T : V −→ V given by T(p) =...

Let V = R1[x], consider the map T : V −→ V given by T(p) = p(1)+p(−1)x. Suppose V has the inner product given by〈p, q〉 = p(1)q(1) + p′(1)q′(1) What is T∗(x)? Show how to get the answer 7-4x

Suppose that V is finite-dimensional and P ∈ L(V ) satisfies P^2 = P. Show that...

Suppose that V is finite-dimensional and P ∈ L(V ) satisfies P^2 = P. Show that E(0, P) =null P and E(1, P) = range P. Deduce that P is diagonalizable.