Homework Answers
this is the value of volume
expansivity..Of the gas..
All the calculations are given step by step..Hope you understand
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The equation of state of a gas is given by p(v-b)=RT find the expansivity of this gas.... Please ...
A. Compute Cp-Cv for a gas described by the equation of state p= RT/V-b B. For...
A. Compute Cp-Cv for a gas described by the equation of state p= RT/V-b B. For this equation of state, does a measurement of Cp-Cv reveal non-ideal behavior (give ≈ 1 sen- tence justification why or why not)?
4. For the given equation of state RT a P = V-b T V (Vm +b)...
4. For the given equation of state RT a P = V-b T V (Vm +b) Evaluate the critical constants Te, Pe, and Z in terms terms of a and b
2.2. The equation of state of a van der Waals gas is given as P+)(v-b) =...
2.2. The equation of state of a van der Waals gas is given as P+)(v-b) = RT, CHAPTER 2: Simple Thermodynamic Systems 47 where a, b, and R are constants. Calculate the following quantities: т, From parts (a) and (b) calculate (av/OT)p
Atomic gas which obeys Van der Waals equation of state RT= (P+ a/ V2) (V-b) has...
Atomic gas which obeys Van der Waals equation of state RT= (P+ a/ V2) (V-b) has internal energy (per mole) of u = 3/2 RT - a/V where 'V' is volume of mole in temperature T. In the beginning, the gas temperature is T1 and volume V1. The gas is let to expand adiabatically so that its final volume is V2. What is the final temperature of the gas?
Physical Chemistry A gas is well described with the following equation of state P = RT/V...
Physical Chemistry
A gas is well described with the following equation of state P = RT/V - b - a/squareroot T 1/V (V + b) where a = 452.0 bar.dm^6.mol^2.K^1/2 and b = 0.08217 dm^3.mol^-1. If 1.14 moles of the gas have a volume of 2L at 685K, calculate: 1- the pressure of the gas using the provided equation of state. 2- the pressure assuming that the gas is an ideal gas. 3- The compressibility factor (z) of the gas...
For the ideal gas equation PV = RT, find an expression for (partial differential P/partial differential...
For the ideal gas equation PV = RT, find an expression for (partial differential P/partial differential V)_T by using the method of implicit differentiation (make sure you show all your work). Compare your answer to the result you get by first solving for P in the ideal gas equation and then taking the derivative. b) Repeat part (a) for the van der Waals equation of state.
3. (20 points) Sandler 6.18 The Clausius equation of state is P(V – b) = RT...
3. (20 points) Sandler 6.18 The Clausius equation of state is P(V – b) = RT where b is a constant. (a) Show that for this volumetric equation of state Cp(P,T) = Cy(P,T) +R Cp(P,T) = CP(T) Cy(V,T) = Ci(T) (b) For a certain process the pressure of a gas must be reduced from an initial pressure P, to the final pressure P2. The gas obeys the Clausius equation of state, and the pressure reduction is to be accomplished by...
Is the following an equation of state? (P+ a/TV^2)(V-b) = RT
Is the following an equation of state? (P+ a/TV^2)(V-b) = RT
Is the following an equation of state? (P+ r™2) (V - b) = RT
Is the following an equation of state? (P+ r™2) (V - b) = RT
Atomic gas which obeys Van der Waals equation of state RT= (P+ a/ V2) (V-b) has internal energy (per mole) of u = 3/2 RT - a/V where 'V' is volume of mole in temperature T. In the beginning,...
Atomic gas which obeys Van der Waals equation of state RT= (P+ a/ V2) (V-b) has internal energy (per mole) of u = 3/2 RT - a/V where 'V' is volume of mole in temperature T. In the beginning, the gas temperature is T1 and volume V1. The gas is let to expand adiabatically so that its final volume is V2. What is the final temperature of the gas?
4. For the given equation of state RT a P = V-b T V (Vm +b) Evaluate the critical constants Te, Pe, and Z in terms terms of a and b
2.2. The equation of state of a van der Waals gas is given as P+)(v-b) = RT, CHAPTER 2: Simple Thermodynamic Systems 47 where a, b, and R are constants. Calculate the following quantities: т, From parts (a) and (b) calculate (av/OT)p
Physical Chemistry
A gas is well described with the following equation of state P = RT/V - b - a/squareroot T 1/V (V + b) where a = 452.0 bar.dm^6.mol^2.K^1/2 and b = 0.08217 dm^3.mol^-1. If 1.14 moles of the gas have a volume of 2L at 685K, calculate: 1- the pressure of the gas using the provided equation of state. 2- the pressure assuming that the gas is an ideal gas. 3- The compressibility factor (z) of the gas...
For the ideal gas equation PV = RT, find an expression for (partial differential P/partial differential V)_T by using the method of implicit differentiation (make sure you show all your work). Compare your answer to the result you get by first solving for P in the ideal gas equation and then taking the derivative. b) Repeat part (a) for the van der Waals equation of state.
3. (20 points) Sandler 6.18 The Clausius equation of state is P(V – b) = RT where b is a constant. (a) Show that for this volumetric equation of state Cp(P,T) = Cy(P,T) +R Cp(P,T) = CP(T) Cy(V,T) = Ci(T) (b) For a certain process the pressure of a gas must be reduced from an initial pressure P, to the final pressure P2. The gas obeys the Clausius equation of state, and the pressure reduction is to be accomplished by...
Is the following an equation of state? (P+ r™2) (V - b) = RT
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