Presentation is loading. Please wait.

Presentation is loading. Please wait.

Results of Midterm 2 0 102030405060708090 points # of students GradePoints A85-100 B+B+ 75-84 B60-74 C+C+ 50-59 C30-49 D,F<30 100 # of students Midterm.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Results of Midterm 2 0 102030405060708090 points # of students GradePoints A85-100 B+B+ 75-84 B60-74 C+C+ 50-59 C30-49 D,F<30 100 # of students Midterm."— Presentation transcript:

1 Results of Midterm 2 0 102030405060708090 points # of students GradePoints A85-100 B+B+ 75-84 B60-74 C+C+ 50-59 C30-49 D,F<30 100 # of students Midterm 1

2 Problem 1 (heat engine) 1 – 2 2 – 3 3 – 1 T1T1 P T2T2 1 2 3 V (20) The heat engine uses an ideal gas as its working substance. 1-2 is an isochoric process, 2-3 – adiabatic, 1-3 – isothermal. T 1 and T 2 are given. Find  Q for each process and the efficiency of the heat engine in terms of T 1 and T 2 (  =1+2/f, C V =(f/2)Nk B ). (10) Which way of increasing the efficiency of the Carnot heat engine is better – to increase the temperature of the hot reservoir by  T (  T <<T H, T C ) or to decrease the temperature of the cold reservoir by the same  T? Explain.

3 Problem 2 vdW (20) Two insulated tanks with volumes V 1 and V 2 are connected by a valve. Each tank contains one mole of the same monatomic van der Waals gas (the constants a and b are known). Initially, when the valve was closed, both gases were at the same temperature T i. The valve is open and the system reaches its equilibrium state. Find the equilibrium temperature T f. Is T f higher or lower than T i ? For which value of V 1 /V 2 you expect T f to be equal to T i? the temperature will decrease V 1, T i V 2, T i if

4 Problem 3 (phase transformations) (25) The pressure of the saturated water vapor at T = 0.01 0 C is 0.006 bar (these T and P correspond to the triple point of water). The latent heat of the solid-liquid transformation at 0.01 0 C is 335 kJ/kg, the latent heat of the liquid-gas transformation is 2500 kJ/kg. Find the pressure of the saturated water vapor at T = -1 0 C. Along the solid-gas phase equilibrium curve: - the latent heat of sublimation at the triple point - we neglected the volume of solid and expressed the gas volume using the ideal gas law. n – the number of moles in 1 kg.

5 Problem 4 (chem. equilibrium) (25) Consider the following reaction at T = 298K and P = 1bar: H 2 CO 3 (aq)  HCO 3 -- (aq) + H + (aq) (a) Using the data in the Table on p.404, calculate  G for this reaction, and the equilibrium constant K. (b) If the initial amount of H 2 CO 3 is 1 mole, what will be the amounts of each reactant and product at equilibrium? The mass action law: Thus, in equilibrium, H 2 CO 3 HCO 3 -- H+H+ initial100 change-x+ x final1-xxx H 2 CO 3 HCO 3 -- H+H+  H (kJ) -699.65-691.990 S (J/K)187.491.20  G (kJ) -623.08-586.770 To obtain the value of  G for the reaction, subtract  G of the reactants from  G of the products:

Download ppt "Results of Midterm 2 0 102030405060708090 points # of students GradePoints A85-100 B+B+ 75-84 B60-74 C+C+ 50-59 C30-49 D,F<30 100 # of students Midterm."

Similar presentations

Use of Steam Tables Saturated Vapor or Liquid

Use of Steam Tables Saturated Vapor or Liquid
The Ideal Gas Ideal Gas Law Van der Waals Equation Distribution of Molecular Speeds.

The Ideal Gas Ideal Gas Law Van der Waals Equation Distribution of Molecular Speeds.
First Law of Thermodynamics

First Law of Thermodynamics
Lecture 15. Phases of Pure Substances (Ch.5) Up to now we have dealt almost exclusively with systems consisting of a single phase. In this lecture, we.

Lecture 15. Phases of Pure Substances (Ch.5) Up to now we have dealt almost exclusively with systems consisting of a single phase. In this lecture, we.
Ch15 Thermodynamics Zeroth Law of Thermodynamics

Ch15 Thermodynamics Zeroth Law of Thermodynamics
Lecture 19 Overview Ch. 4-5 List of topics Heat engines

Lecture 19 Overview Ch. 4-5 List of topics Heat engines
Chapter 16 Chemical and Phase Equilibrium Study Guide in PowerPoint to accompany Thermodynamics: An Engineering Approach, 5th edition by Yunus.

Chapter 16 Chemical and Phase Equilibrium Study Guide in PowerPoint to accompany Thermodynamics: An Engineering Approach, 5th edition by Yunus.
Equilibrium A state in which opposing processes of a system are occurring at the same rate. 1.Physical (a) Saturated Solution – dissolution and crystallization.

Equilibrium A state in which opposing processes of a system are occurring at the same rate. 1.Physical (a) Saturated Solution – dissolution and crystallization.
Work, Heat and Internal Energy: The First Law. System – the specific part of the universe of interest to us Surroundings – the part of the universe not.

Work, Heat and Internal Energy: The First Law. System – the specific part of the universe of interest to us Surroundings – the part of the universe not.
Entropy Change Property diagrams (T-s and h-s diagrams) –From the definition of the entropy, it is known that  Q=TdS during a reversible process. –Hence.

Entropy Change Property diagrams (T-s and h-s diagrams) –From the definition of the entropy, it is known that  Q=TdS during a reversible process. –Hence.
Entropy and the Second Law of Thermodynamics

Entropy and the Second Law of Thermodynamics
1 CHEM 212 Chapter 3 By Dr. A. Al-Saadi. 2 Introduction to The Second Law of Thermodynamics The two different pressures will be equalized upon removing.

1 CHEM 212 Chapter 3 By Dr. A. Al-Saadi. 2 Introduction to The Second Law of Thermodynamics The two different pressures will be equalized upon removing.
Results of Midterm 2 0 102030405060708090 points # of students GradePoints A85-100 B+B+ 75-84 B60-74 C+C+ 50-59 C30-49 D,F

Results of Midterm points # of students GradePoints A B+B B60-74 C+C C30-49 D,F
Results of Midterm 2 0 102030405060708090 points # of students GradePoints A66-100 B+B+ 56-65 B46-55 C+C+ 41-45 C26-40 D,F

Results of Midterm points # of students GradePoints A B+B B46-55 C+C C26-40 D,F
Lecture 294/16/07. Changes in temperature - recap Heat = (constant) x (mass) x (change in temp)

Lecture 294/16/07. Changes in temperature - recap Heat = (constant) x (mass) x (change in temp)
Absolute Zero Physics 313 Professor Lee Carkner Lecture 15.

Absolute Zero Physics 313 Professor Lee Carkner Lecture 15.
Section 4 -Phase Equilibrium Two-Phase Systems A system is a set of components that are being studied. Within a system, a phase is a region that has the.

Section 4 -Phase Equilibrium Two-Phase Systems A system is a set of components that are being studied. Within a system, a phase is a region that has the.
Phy 202: General Physics II Ch 15: Thermodynamics.

Phy 202: General Physics II Ch 15: Thermodynamics.
PM3125 Content of Lectures 1 to 6: Heat transfer: Source of heat

PM3125 Content of Lectures 1 to 6: Heat transfer: Source of heat
Properties of Pure Substances

Properties of Pure Substances

Similar presentations

Ads by Google