For an ideal gas with constant heat capacities, show that: (a) For a temperature change from T
Question:
For an ideal gas with constant heat capacities, show that:
(a) For a temperature change from T1 to T2, ΔS of the gas is greater when the change occurs at constant pressure than when it occurs at constant volume.
(b) For a pressure change from P1 to P2, the sign of ΔS for an isothermal change is opposite that for a constant-volume change.
Fantastic news! We've Found the answer you've been seeking!
Step by Step Answer:
Answer rating: 50% (4 reviews)
a For a temperature change from T1 to T2 the change in entropy S of an ideal gas with constant heat ...View the full answer
Answered By
BillClinton Muguai
I have been a tutor for the past 5 years. I have experience working with students in a variety of subject areas, including computer science, math, science, English, and history. I have also worked with students of all ages, from elementary school to college. In addition to my tutoring experience, I have a degree in education from a top university. This has given me a strong foundation in child development and learning theories, which I use to inform my tutoring practices.
I am patient and adaptable, and I work to create a positive and supportive learning environment for my students. I believe that all students have the ability to succeed, and it is my job to help them find and develop their strengths. I am confident in my ability to tutor students and help them achieve their academic goals.
0.00
0 Reviews
10+ Question Solved
Related Book For
Introduction To Chemical Engineering Thermodynamics
ISBN: 9781259696527
8th Edition
Authors: J.M. Smith, Hendrick Van Ness, Michael Abbott, Mark Swihart
Question Posted:
Students also viewed these Engineering questions
-
An ideal gas with constant heat capacities undergoes a change of state from conditions T1, P1 to conditions T2, P2. Determine (H (J mol-1) and (S (J mol-1 K-1) for one of the following cases. (a) T1...
-
For an ideal gas with constant specific heats show that the compressor and turbine isentropic efficiencies may be written as The states 1 and 2 represent the compressor inlet and exit states and the...
-
The specific heat at constant volume for an ideal gas is given by cv = 0.7 + (2.7 10 -4)T (kJ/kgK) where T is in kelvin. The change in the internal energy for this ideal gas undergoing a process in...
-
Sherman Co. began operations on January 1, 2015, and completed several transactions during 2015 and 2016 that involved sales on credit, accounts receivable collections, and bad debts. These...
-
Describe the essential information to be included in an effective follow-up letter.
-
Petes Taxi & Limo provides transportation services in and around Centerville. Its profits have been declining, and management is planning to add a package delivery service that is expected to...
-
Identify the four components of a use case and how they affect each other.
-
Precise Metals, Inc., a fast-growing company that makes metals for equipment manufacturers, has an $800,000 line of credit at its bank. One section in the credit agreement says that the ratio of cash...
-
Lawrence Corp. a sporting goods manufacturer, provided the following information for the year ended December 31, 2020: Inventories Raw Materials Beginning Ending 54,900 25,600 98,200 60,900...
-
Idexo Corporation is a privately held designer and manufacturer of licensed college apparel in Cincinnati, Ohio. In late 2019, after several years of lackluster performance, the firms owner and...
-
An ideal gas, C P = (7/2)R, is heated in a steady-flow heat exchanger from 70C to 190C by another stream of the same ideal gas which enters at 320C. The flow rates of the two streams are the same,...
-
A Carnot engine operates between two finite heat reservoirs of total heat capacity C t H and C t C (a) Develop an expression relating T C to T H at any time. (b) Determine an expression for the work...
-
Heartstrings Gift Shoppe sells an assortment of gifts for any occasion. During October, Heartstrings started a Gift-of-the-Month program. Under the terms of this program, Heartstrings would select...
-
Austin Limited is trying to determine the value of its ending inventory as of February 28, 2019, the companys year-end. The following transactions occurred, and the accountant asked your help in...
-
Katz Hat Shop received a shipment of hats for which it paid the wholesaler $2,970. The price of the hats was $3,000, but Katz was given a $30 cash discount and required to pay freight charges of $50....
-
The "beck" exploit. A popular web server supports a function named no2s7ash() whose purpose is to collapse multiple / characters. For example, the string /d1///d2////d3/test. htm1 collapses to \(/...
-
Given an array of \(n\) integers, design an algorithm to determine whether any three of them sum to 0 . The order of growth of the running time of your program should be \(n^{2} \log n\). Extra...
-
Write a program to generate random connected graphs and 2-ring graphs with random shortcuts. Using SmallWorld, generate 500 random graphs from both models (with 1,000 vertices each) and compute their...
-
Show that belongs to the subspace of R3 spanned by by writing it as a linear combination of the spanning vectors 123 2-2
-
The Thomas Corporation was organized on Jan. 1, 2020. On Dec. 31, 2021, the corporation lost most of its inventory in a warehouse fire before the year-end count of inventory was to take place. just...
-
Operating data are taken on an air turbine. For a particular run, P 1 = 8 bar, T 1 = 600 K, and P 2 = 1.2 bar. However, the recorded outlet temperature is only partially legible; it could be T 2 =...
-
Liquid benzene at 25C and 1.2 bar is converted to vapor at 200C and 5 bar in a twostep steady-flow process: compression by a pump to 5 bar, followed by vaporization in a counterflow heat exchanger....
-
A boiler house produces a large excess of low-pressure [50(psig), 5(F)-superheat] steam. An upgrade is proposed that would first run the low-pressure steam through an adiabatic steady-flow...
-
Write an equation for the polynomial graphed below 5+ 4 + -5-4-3-2 y = 3. 2- 1 + + 2 3 4 5 -2 345 -5+
-
How can ethical leadership principles be leveraged to navigate the complexities of organizational dynamics and promote a culture of integrity, accountability, and social responsibility ?
-
Consider the 12-QAM constellation shown in Figure 2 and the baseband pulse, g(t) depicted in Figure 3. The 12 passband transmit waveforms are represented as Sm1(t) = Amig(t) cos (2fet) - Amag(t) sin...
Study smarter with the SolutionInn App