Do not create another plot, just add this plot on top of the other one. Is there any strange point in the graph? If so what could be the reason? Is the P-V plot looking like a perfect gas or real gas? Comment, why? g) Plot the same graph at T=190.3 K. Set the V axis starting from 0.05 and ending at 1 L. f) define pressure as a function of V and T assuming n=1 mol constant all the time (i.e. e) calculate the critical points: Tc, Vc and pc, of 1 mol methane (CH4) gas: Use following constants: a=2.273 L2.atm.mol-2 and b=0.0431 L.mol-1. d) Replace the values in the van der Waals equation to find the expression for the critical temperature, Tc. c) Set these two expressions equal to zero and solve the simultaneous equations to find expressions fora the pressure and volume at the critical point, pc and Vc. P(V,T,n) b) Find the expressions fora DP/dV and d?p/dV?, treating T and n as constants. This critical point corresponds to the point at which DP/DV = 0 and d?p/dV2 = 0 a) In the van der Waals equation, write p as a function of V, T and n. At the critical point, defined by a critical temperature Tc, a critical volume V, and a critical pressure pc, phase boundaries vanish. The gases that are above critical temperatures are named “permanent gas” and thus cannot be liquefied by pressure alone. Transcribed image text: Question In thermodynamics, a critical point (or critical state) is the end point of a phase equilibrium curve (the pressure-temperature curve) that designates conditions under which a liquid and its vapor can coexist.
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