Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 1 The Energy Balance for.

Slides:



Advertisements
Similar presentations
Energy Degradation By: Thomas Madsen Nicholas Riggs Jordan Meng.
Advertisements

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 2 Module 2 Slide 1 Additional Aspects for.
Unit 4: Alternative Energy Topic 1:Energy Power & Energy 3201.
CHAPTER 5 The Second Law of Thermodynamics. Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2001, F. A. Kulacki Chapter.
Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 1 Module 2 Slide 1 Equilibrium States and.
Energy – The capacity for doing work The ability to change matter.
PowerPoint Presentation for PowerPoint Presentation for Instructor’s Online Learning Center Thermodynamics An Engineering Approach Fourth Edition Yunus.
Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 5 Slide 1 The First Law of Thermodynamics.
熱力學第一定律. The First Law of Thermodynamics The conservation of energy -Energy cannot be created or destroyed; it can only change forms (the first law).
Dr. Jie ZouPHY Chapter 20 Heat and the First Law of Thermodynamics (cont.)
Chapter 5 Module 4 Slide 1 The Second Law of Thermodynamics Reversible and Irreversible Processes Instructors Visual Aids Heat, Work and Energy. A First.
Instructors Visual Aids Heat, Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 6 Module 1 Slide 1 The T-dS Equations Entropy.
Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 3 Module 3 Slide 1 Open System Analysis-1.
JIF 314 Thermodynamics Chapter 6 The second law of thermodynamics.
Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2001, F. A. Kulacki Chapter 2 Module 3 Slide 1 Equation of State for.
Instructors Visual Aids Heat, Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 6 Module 1 Slide 1 The T-dS Equations ΔS.
CHAPTER 4 The First Law of Thermodynamics. Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter.
Energy Transfer by Heat, Work, and Mass
Energy Relationships in Chemical Reactions Chapter 6 Dr. Ramy Y. Morjan.
Thermochemistry. Thermochemistry is the study of the heat released (-  H) or absorbed (+  H) by chemical and physical changes. Thermochemistry.
Integrated Science Unit 2, Chapter 5.
Integrated Science Unit 2, Chapter 5.
WCB/McGraw-Hill © The McGraw-Hill Companies, Inc.,1998 Thermodynamics Çengel Boles Third Edition 3 CHAPTER The First Law of Thermodynamics: Closed Systems.
Preview Objectives Heat, Work, and Internal Energy Thermodynamic Processes Chapter 10 Section 1 Relationships Between Heat and Work.
Power, Efficiency, and Potential Energy Class Lectures 11: 3.6 & 7 Today’s Objective 1.Power and Efficiency 2.Potential Energy 3.Conservation of Energy.
Thermodynamics I Chapter 3 Energy, Heat and Work Mohsin Mohd Sies Fakulti Kejuruteraan Mekanikal, Universiti Teknologi Malaysia.
ERT 108 Physical Chemistry The First Law of Thermodynamics by Miss Anis Atikah binti Ahmad
Chapter 1 The first law of thermodynamics § 1.1 Basic introduction.
Review First Law. Work Work is energy transferred when directed motion is achieved against an external force. There are many types of forces available.
Preview Objectives Heat, Work, and Internal Energy Thermodynamic Processes Chapter 10 Section 1 Relationships Between Heat and Work.
Preview Objectives Heat, Work, and Internal Energy Thermodynamic Processes Chapter 10 Section 1 Relationships Between Heat and Work.
WCB/McGraw-Hill © The McGraw-Hill Companies, Inc.,1998 Thermodynamics Çengel Boles Third Edition 3 CHAPTER The First Law of Thermodynamics: Closed Systems.
By HANN ILYANI ZULHAIMI ERT 108 PHYSICAL CHEMISTRY THE FIRST LAW OF THERMODYNAMICS.
PHY1039 Properties of Matter First Law of Thermodynamics and Heat Capacity (See Finn’s Thermal Physics, Ch. 3) March 5 and 8, 2012 Lectures 9 and 10.
Chapter 10 Preview Objectives Heat, Work, and Internal Energy
Thermodynamics Chapter 10
1 Second Law of Thermodynamics - Entropy. 2 Introduction The second low often leads to expressions that involve inequalities.
Chapter 10: Section 2.  Describe the First Law of Thermodynamics  Make calculations involving changes in internal energy  Create and analyze energy.
Chapter 11 Laws of Thermodynamics. Chapter 11 Objectives Internal energy vs heat Work done on or by a system Adiabatic process 1 st Law of Thermodynamics.
Thermodynamics System Surroundings - + Thermo = dynamics = heat or energy movement.
Chapter 10 Physics A First Course Energy and Change.
Energy and Work Content area presentation for Physics.
Chapter 3.1 Laws of Thermodynamics. Systems  A system is a set of interconnected parts  An open system is one that exchanges both matter and energy.
Thermodynamic Processes
CHAPTER 2 ENERGY, ENERGY TRANSFER, AND GENERAL ENERGY ANALYSIS Dr. Sam Sung Ting Copyright © 2015 The McGraw-Hill Education. Permission required for reproduction.
Forms of Energy Openers Mrs. V Science Match each definition to the correct key term A. B. C. D.
Chemical Thermodynamics Lecture 1. Chemical Thermodynamics Prepared by PhD Halina Falfushynska.
Do Now Nov. 4th In your Do Now Book, list ways that you used energy this morning.
ENERGY SECTION 2.2.
Transferring AND TRANSFORMING ENERGY
Presented By: Rahul Sharma
3 CHAPTER The First Law of Thermodynamics: Closed Systems.
The Laws of Thermodynamics
Energy Energy - The ability to do work.
Energy “Picks” How much do you know?.
INTRODUCTION If we take the entire room—including the air and the refrigerator (or fan)—as the system, which is an adiabatic closed system since the room.
Energy Conversions Energy Conversion What does a Bunsen burner,
Configuration Work This is the work done in a reversible process given by the product of some intensive variable (y) and the change in some extensive variable.
Chapter 2 Energy Transfer by Heat, Work & Mass
Energy Conversions Energy Conversion What does a Bunsen burner,
Energy Review & Systems Notes
The First Law of Thermodynamics
1 a. i) A rower rowing a boat: The work done to overcome friction is transferred as energy to the thermal energy stores of the water, oar and boat.
Configuration Work This is the work done in a reversible process given by the product of some intensive variable (y) and the change in some extensive variable.
What is Thermo, Stat Mech, etc.?
Different Forms of Energy -Chapter 3
Chapter 4 Energy Balances without reaction.
ENERGY ANALYSIS GROUP THREE THERMODYNAMICS SHARAFATU BADARU
A SEMINAR ON First Law and Concept of Spontaneity
Chapter 2: Energy and the First Law of Thermodynamics
Presentation transcript:

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 1 The Energy Balance for Closed Systems: The First Law and Heat The Energy Balance for Closed Systems The First Law and Heat

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 2 The Energy Balance for Closed Systems: The First Law and Heat Definition of heat...

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 3 The Energy Balance for Closed Systems: The First Law and Heat The First Law The adiabatic work done on a closed system is independent of path for two given states.

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 4 The Energy Balance for Closed Systems: The First Law and Heat Heat: The result of non-adiabatic processes Non-adiabatic path, i.e., Q 1-2 > 0. Adiabatic path, i.e., Q 1-2 = 0. P1P1 P2P2

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 5 The Energy Balance for Closed Systems: The First Law and Heat Heat defined

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 6 The Energy Balance for Closed Systems: The First Law and Heat Heat defined Heat transfer to the system: Heat transfer from the system:

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 7 The Energy Balance for Closed Systems: The First Law and Heat Energy balances...

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 8 The Energy Balance for Closed Systems: The First Law and Heat Energy Balances = Change of Energy in the System Change of Energy in the System - Heat Transfer at System Boundary Heat Transfer at System Boundary Work Done by the System Work Done by the System These terms are evaluated at the system boundary. They represent energetic interactions between the system and its surroundings.

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 9 The Energy Balance for Closed Systems: The First Law and Heat Mechanical Work Out Heat Loss, (W) Motor Electrical Power Input (W) m z Example 1

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 10 The Energy Balance for Closed Systems: The First Law and Heat Motor m Example 1 For steady operation, there is no change of the state of the system, and

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 11 The Energy Balance for Closed Systems: The First Law and Heat Example 2 Mechanical Work to Raise the Mass, m Heat Loss from from Motor Force = mg Battery has stored energy. It is released via electrical current. M B m System Boundary

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 12 The Energy Balance for Closed Systems: The First Law and Heat Example 2 M B m For transient operation, chemical energy stored in the battery is converted to electrical power and to mechanical work and heat.

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 13 The Energy Balance for Closed Systems: The First Law and Heat Example 3 Q5Q5Q5Q5 To correctly analyze this arrangement, all energy & work transfers must be counted. Where is the primary energy source? What are the possible systems for analysis? B W Motor Q1Q1Q1Q1 Q2Q2Q2Q2 Q3Q3Q3Q3 Q4Q4Q4Q4 Fan Battery

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 14 The Energy Balance for Closed Systems: The First Law and Heat Example 4 Solar Pond

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 15 The Energy Balance for Closed Systems: The First Law and Heat Cyclic processes...

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 16 The Energy Balance for Closed Systems: The First Law and Heat Cyclic Processes P1P1 P2P2 S1S1S1S1 S2S2S2S2

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 17 The Energy Balance for Closed Systems: The First Law and Heat Equivalence of heat and work This is an important result that says the cyclic heat and work are the same. It establishes that heat and work are different forms of energy.

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 4 Module 2 Slide 18 The Energy Balance for Closed Systems: The First Law and Heat Key concepts and terms Adiabatic Process Cycle Cyclic Heat Cyclic Work Energy Heat Heat Transfer Internal Energy

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.