Solution manual of machine design by KHURMI and GUPTA

                           Book Description

This book on machine design is aimed at students of B.E., B.Tech., A.M.I.E.E., and those taking the UPSC Engineering Services exam.

Summary of The Book

Engineering design is the process of studying requirements, and coming up with a plan to produce a system or device that will provide a solution to the requirement or problem. The person who designs the solution has to go through the various stages of the design process to arrive at an optimal solution.

The first phase is to recognize a problem, or a situation that can be improved. The second phase involves defining the problem, that is listing the data that needs to be processed, all the constraints within which the solution should operate, like business practice, statutory requirements etc. Then, defining the kind of solution required.

Then comes the actual design process which goes through stages of conceptual design, when different plans can be created, feasibility study to determine the relevance, validity, and economic feasibility of the proposed solutions. Then comes preliminary design of the selected solution, then presentation design, planning for manufacture, planning for distribution, planning for use, and finally, planning for retirement of the product.

This book studies these aspects with relevance to machines. It begins with an introduction to the machine design process, then examines engineering materials and their properties.

The book then discusses manufacturing considerations in machine design, simple stresses in machine parts, torional and bending stresses in machine parts, and variable stresses in machine parts.

Then the book goes on to discuss pressure joints, pipes and pipe joints, riveted joints, welded joints, screwed joints, cotter and knuckle joints, keys and coupling, shafts, levers, columns and struts, and power screws.

It then looks at flat belt drives, flat belt pulleys, V-belt and rope drives, chain drives, flywheel, springs, clutches, brakes, sliding contact bearings and rolling contact bearings, spur gears, helical gears, bevel gears, worm gears, and internal combustion engine parts.

This multicolored edition includes appropriate illustrations and pictures to further elucidate the theory. It also includes sufficient number of solved and unsolved problems for clarification and practice.

                            Table of Contents

• Introduction
• Engineering Materials & Their Properties
• Manufacturing Considerations In Machine Design
• Simple Stresses In Machine Parts
• Torional & Bending Stresses In Machine Parts
• Variable Stresses In Machine Parts
• Pressure Vessels 8.Pipes &Pipe Joints
• Riveted Joints
• Welding Joints
• Screwed Joints
• Cotter & Knuckle Joints
• Keys & Coupling
• Shafts
• Levers
• Columns & Struts
• Power Screws
• Flat Belt Drives
• Flat Belt Pulleys
• V � Belt & Rope Drives
• Chain Drives
• Flywheel
• Springs
• Clutchces
• Brakes
• Slidings Contact Bearings
• Rolling Contact Bearings
• Spur Gears
• Helical Gears
• Bevel Gears
• Worms Gears
• Internal Combustion Engine Parts

File Size  3,70 MB

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anton bivens davis calculus early transcendentals 8th edition Free Download

                                      Book Description
Anton, Bivens & Davis latest issue of Calculus Early Transcendentals Single Variable continues to build upon previous editions to fulfill the needs of a changing market by providing flexible solutions to teaching and learning needs of all kinds. The text continues to focus on and incorporate new ideas that have withstood the objective scrutiny of many skilled and thoughtful instructors and their students. This 10^th edition retains Anton's trademark clarity of exposition, sound mathematics, excellent exercises and examples, and appropriate level.
                          Table of Content

chapter one FUNCTIONS 11.1 Functions 11.2 Graphing Functions Using Calculators and Computer Algebra Systems161.3 New Functions from Old 271.4 Families of Functions 401.5 Inverse Functions; Inverse Trigonometric Functions 511.6 Exponential and Logarithmic Functions 651.6 Mathematical Models 761.7 Parametric Equations 86chapter two LIMITS AND CONTINUITY 1012.1 Limits (An Intuitive Approach) 1012.2 Computing Limits 1132.3 Limits at Infinity; End Behavior of a Function 1222.4 Limits (Discussed More Rigorously) 1342.5 Continuity 1442.6 Continuity of Trigonometric and Inverse Functions 155chapter three THE DERIVATIVE 1653.1 Tangent Lines, Velocity, and General Rates of Change 1653.2 The Derivative Function 1783.3 Techniques of Differentiation 1903.4 The Product and Quotient Rules 1983.5 Derivatives of Trigonometric Functions 2043.6 The Chain Rule 2093.7 Related Rates 2173.8 Local Linear Approximation; Differentials 224chapter four EXPONENTIAL, LOGARITHMIC, AND INVERSE TRIGONOMETRIC FUNCTIONS 2354.1 Implicit Differentiation 2354.2 Derivatives of Logarithmic Functions 2434.3 Derivatives of Exponential and Inverse Trigonometric Functions 2484.4 L'H�pital's Rule; Indeterminate Forms 256chapter five THE DERIVATIVE IN GRAPHING AND APPLICATIONS 2675.1 Analysis of Functions I: Increase, Decrease, and Concavity 2675.2 Analysis of Functions II: Relative Extrema; Graphing Polynomials 2795.3 More on Curve Sketching: Rational Functions; Curves with Cusps and Vertical Tangent Lines; Using Technology 2895.4 Absolute Maxima and Minima 3015.5 Applied Maximum and Minimum Problems 3095.6 Newton's Method 3235.7 Rolle's Theorem; Mean-Value Theorem 3295.8 Rectilinear Motion 336chapter six INTEGRATION 3496.1 An Overview of the Area Problem 3496.2 The Indefinite Integral 3556.3 Integration by Substitution 3656.4 The Definition of Area as a Limit; Sigma Notation 3736.5 The Definite Integral 3866.6 The Fundamental Theorem of Calculus 3966.7 Rectilinear Motion Revisited Using Integration 4106.8 Evaluating Definite Integrals by Substitution 419chapter seven APPLICATIONS OF THE DEFINITE INTEGRAL IN GEOMETRY, SCIENCE, AND ENGINEERING 44207.1 Area Between Two Curves 4427.2 Volumes by Slicing; Disks and Washers 4507.3 Volumes by Cylindrical Shells 4597.4 Length of a Plane Curve 4657.5 Area of a Surface of Revolution 4717.6 Average Value of a Function and its Applications 4767.7 Work 4817.8 Fluid Pressure and Force 4907.9 Hyperbolic Functions and Hanging Cables 496chapter eight PRINCIPLES OF INTEGRAL EVALUATION 5108.1 An Overview of Integration Methods 5108.2 Integration by Parts 5138.3 Trigonometric Integrals 5228.4 Trigonometric Substitutions 5308.5 Integrating Rational Functions by Partial Fractions 5378.6 Using Computer Algebra Systems and Tables of Integrals 5458.7 Numerical Integration; Simpson's Rule 5568.8 Improper Integrals 569chapter 9 MATHEMATICAL MODELING WITH DIFFERENTIAL EQUATIONS 5829.1 First-Order Differential Equations and Applications 5829.2 Slope Fields; Euler's Method 5969.3 Modeling with First-Order Differential Equations 6039.4 Second-Order Linear Homogeneous Differential Equations; The Vibrating Spring 612chapter ten INFINITE SERIES 62410.1 Sequences 62410.2 Monotone Sequences 63510.3 Infinite Series 64310.4 Convergence Tests 65210.5 The Comparison, Ratio, and Root Tests 65910.6 Alternating

• 
  
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Fundamental of Digital Logic and Microcomputer Design by M. Rafiquzzaman 5th edition Free Download

Book Description
Fundamentals of Digital Logic and Microcomputer Design, has long been hailed for its clear and simple presentation of the principles and basic tools required to design typical digital systems such as microcomputers. In this Fifth Edition, the author focuses on computer design at three levels: the device level, the logic level, and the system level. Basic topics are covered, such as number systems and Boolean algebra, combinational and sequential logic design, as well as more advanced subjects such as assembly language programming and microprocessor-based system design. Numerous examples are provided throughout the text.
Table Of Contents

1. Introduction to Digital Systems.

2. Number Systems and Codes.

3. Boolean Algebra and Digital Logic Gates.

4. Combinational Logic Design.

5. Sequential Logic Design.

6. Microcomputer Architecture, Programming, and System Design Concepts.

7. Design of Computer Instruction Set and the CPU.

8. Memory, I/O, and Parallel Processing.

9. Intel 8086.

10. Motorola MC68000.

11. Intel and Motorola 32- & 64-Bit Microprocessors.

Appendix A: Answers to Selected Problems.

Appendix B: Glossary.

Appendix C: Motorola 68000 and Support Chips.

Appendix D: 68000 Execution Times.

Appendix E: Intel 8086 and Support Chips.

Appendix F: 8086 Instruction Set Reference Data.

Appendix G: 68000 Instruction Set.

Appendix H: 8086 Instruction Set.

Appendix I: Verilog.

Appendix J: VHDL.

Bibliography.

Credits.

Index.

File Size  37.96 Mb

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Elementary Linear Algebra 9th Edition by Howard Anton And Chris rorres

                                 Book Description

This classic treatment of linear algebra presents the fundamentals in the clearest possible way, examining basic ideas by means of computational examples and geometrical interpretation. It proceeds from familiar concepts to the unfamiliar, from the concrete to the abstract. Readers consistently praise this outstanding text for its expository style and clarity of presentation.

• The applications version features a wide variety of interesting, contemporary applications.
• Clear, accessible, step-by-step explanations make the material crystal clear.
• Established the intricate thread of relationships between systems of equations, matrices, determinants, vectors, linear transformations and eigenvalues.

                       Table Of Content

Chapter 1  Systems of Linear Equations and Matrices.1.1 Introduction to Systems of Linear Equations.1.2 Gaussian Elimination.1.3 Matrices and Matrix Operations.1.4 Inverses; Rules of Matrix Arithmetic.1.5 Elementary Matrices and a Method for FindingA -1 .1.6 Further Results on Systems of Equations and Invertibility.1.7 Diagonal, Triangular, and Symmetric Matrices. Chapter 2.  Determinants.2.1 Determinants by Cofactor Expansion.2.2 Evaluating Determinants by Row Reduction.2.3 Properties of the Determinant Function.2.4 A Combinatorial Approach to Determinants .Chapter 3.  Vectors in 2 Space and 3-Space.3.1 Introduction to Vectors (Geometric).3.2 Norm of a Vector; Vector Arithmetic.3.3 Dot Product; Projections.3.4 Cross Product.3.5 Lines and Planes in 3-Space. Chapter 4 . Euclidean Vector Spaces.4.1 Euclideann-Space.4.2 Linear Transformations from R n to R m .4.3 Properties of Linear Transformations from R n to R m .4.4 Linear Transformations and Polynomials .Chapter 5.  General Vector Spaces.5.1 Real Vector Spaces.5.2 Subspaces.5.3 Linear Independence.5.4 Basis and Dimension.5.5 Row Space, Column Space, and Nullspace.5.6 Rank and Nullity .Chapter 6.  Inner Product Spaces.6.1 Inner Products.6.2 Angle and Orthogonality in Inner Product Spaces.6.3 Orthonormal Bases: Gram-Schmidt Prodcess;QR-Decomposition.6.4 Best Approximation; Least Squares.6.5 Change of Basis.6.6 Orthogonal Matrices. Chapter 7  Eigenvalues, Eigenvectors.7.1 Eigenvalues and Eigenvectors.7.2 Diagonalization.7.3 Orthogonal Diagonalization .Chapter 8.  Linear Transformations.8.1 General Linear Transformations.8.2 Kernel and range.8.3 Inverse Linear Transformations.8.4 Matrices of General Linear Transformations.8.5 Similarity.8.6 Isomorphism .Chapter 9. Additional topics.9.1 Application to Differential Equations.9.2 Geometry and Linear Operators onR 2 .9.3 Least Squares Fitting to Data.9.4 Approximation Problems; Fourier Series.9.5 Quadratic Forms.9.6 Diagonalizing Quadratic Forms; Conic Sections.9.7 Quadric Surfaces.9.8 Comparison of Procedures for Solving Linear Systems.9.9LU-Decompositions .Chapter 10 . Complex Vector Spaces.10.1 Complex Numbers.10.2 Division of Complex Numbers.10.3 Polar Form of a Complex Number.10.4 Complex Vector Spaces.10.5 Complex Inner Product Spaces.10.6 Unitary Normal, and Hermitian Matrices. Chapter 11. Applications of Linear Algebra.11.1 Constructing Curves and Surfaces through Specified Points.11.2 Electrical Networks.11.3 Geometric Linear Programming.11.4 The Earliest Applications of Linear Algebra.11.5 Cubic Spline Interpolation.11.6 Markov Chains.11.7 Graph Theory.11.8 Games of Strategy.11.9 Leontief Economic Models.11.10 Forest Management.11.11 Computer Graphics.11.12 Equilibrium Temperature Distributions.11.13 Computed Tomography.11.14 Fractals.11.15 Chaos.11.16 Cryptography.11.17 Genetics.11.18 Age-Specific Population Growth.11.19 Harvesting of Animal Populations.11.20 A Least Squares Model for Human Hearing.11.21 Warps and Morphs.Answers to Exercises.Index. File Size  19,70 MB                     FREE DOWNLOAD http://dc125.4shared.com/download/SxMyWxw1/Elementary_Linear_Algebra__9th.pdf?tsid=20130724-093145-b1b575ab

Solution Manual linear algebra with applications third edition nicholson w. keith Free download

                                   Book Description

This book is an introduction to the ideas and the techniques of linear algebra directed to students of first or second course who already have the theory of linear algebra, the resolution of problems and the possible applications, and all of it maintaining an excelent level, step by step. This is a wonderful and easy to follow book about linear algebra. After reading this book with clear concept establishment, you might go ahead more advanced books.


                                                  Table of contents

Chapter 1: Systems of Linear Equations 
Chapter 2: Matrix Algebra 
Chapter 3: Determinants and Diagonalization 
Chapter 4: Vector Geometry 
Chapter 5: The Vector Space Rn 
Chapter 6: Vector Spaces 
Chapter 7: Linear Transformations 
Chapter 8: Orthogonality 
Chapter 9: Change of Basis 
Chapter 10: Inner Product Spaces 
Chapter 11:Canonical Forms 
Appendix A: Complex Numbers
Appendix B: Proofs
Appendix C: Mathematical Induction
Appendix D: Polynomials 

File Size        63,65 MB

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Solution manual linear algebra second edition by kenneth hoffman and ray kunze Free download

                                                Book Description

comprehensive treatment of the subject. How it differs from the version: The first part of the book contains more examples concerning linear equations and computations with matrices. In addition, there are more problems of an elementary nature designed to clarify the basic computational aspects of the subject. The material on characteristic values, characteristic vectors, and diagonalization of matrices is reorganized so that the elementary and geometrically intuitive concepts are presented first. Table Of Contents �Linear Equations. Vector Spaces. � Linear Transformations. �Polynomials. � Determinants. � Elementary Canonical Forms. � The Rational and Jordan Forms. � Inner Product Spaces. � Operators on Inner Product Spaces. �Bilinear Forms. � Appendices. � Bibliography. � Index.

                                Table of Content

 1. Linear Equations.


 2. Vector Spaces.


 3. Linear Transformations.


 4. Polynomials.


 5. Determinants.


 6. Elementary canonical Forms.


 7. Rational and Jordan Forms.


 8. Inner Product Spaces.


 9. Operators on Inner Product Spaces.


10. Bilinear Forms.


Appendix. 

File Size   20,06 MB

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digital logic and computer design by m morris mano 3rd edition Free download

Description


This is a modern revision of the classic digital design textbook. The book teaches the basic tools for the design of digital circuits in a clear, easily accessible manner. New to This Edition: *Nine sections on Verilog Hardware Description Language (HDL) inserted in discrete sections, allowing the material to be covered or skipped as desired. The Verilog HDL presentation is at a suitable level for beginning students who are learning digital circuits for the first time. *Reorganized material on combinational circuits is now covered in a single chapter.
Read more at http://ebookee.org/Digital-Design-3rd-Edition-by-M-Morris-Mano-Repost-_365823.html#lEvt4gBHbX1gDAi7.99 

Table of content

The following is a brief description of the topics that are covered in each chapter with emphasis on the revisions that were made for the third edition.

Chapter 1 presents the various binary systems suitable for representing information in digital systems. The binary number system is explained and binary codes are illustrated. Examples are given for addition and subtraction of signed binary numbers and decimal numbers in BCD.

Chapter 2 introduces the basic postulates of Boolean algebra and shows the correlation between Boolean expressions and their corresponding logic diagrams. All possible logic operations for two variables are investigated and from that, the most useful logic gates used in the design of digital systems are determined. The characteristics of integrated circuit gates are mentioned in this chapter but a more detailed analysis of the electronic circuits of the gates is done in Chapter 10.

Chapter 3 covers the map method for simplifying Boolean expressions. The map method is also used to simplify digital circuits constructed with AND-OR, NAND, or NOR gates. All other possible two-level gate circuits are considered and their method of implementation is explained. Verilog HDL is introduced together with simple gate-level modeling examples.

Chapter 4 outlines the formal procedures for the analysis and design of combinational circuits. Some basic components used in the design of digital systems, such as adders and code converters, are introduced as design examples. Frequently used digital logic functions such as parallel adder and subtractor, decoders, encoders, and multiplexers are explained, and their use in the design of combinational circuits is illustrated. HDL examples are given in the gate-level, dataflow, and behavioral modeling to show the alternative ways available for describing combinational circuits in Verilog HDL. The procedure for writing a simple test bench to provide stimulus to an HDL design is presented.

Chapter 5 outlines the formal procedures for the analysis and design of clocked synchronous sequential circuits. The gate structure of several types of flip-flops is presented together with a discussion on the difference between level and edge triggering. Specific examples are used to show the derivation of the state table and state diagram when analyzing a sequential circuit. A number of design examples are presented with emphasis on sequential circuits that use D-type flip-flops. Behavioral modeling in Verilog HDL for sequential circuits is explained. HDL Examples are given to illustrate Mealy and Moore models of sequential circuits.

Chapter 6 deals with various sequential circuits components such as registers, shift registers, and counters. These digital components are the basic building blocks from which more complex digital systems are constructed. HDL descriptions of shift registers and counter are presented.

Chapter 7 deals with random access memory (RAM) and programmable logic devices. Memory decoding and error correction schemes are discussed. Combinational and sequential programmable devices are presented such as ROM, PAL, CPLD, and FPGA.

Chapter 8 deals with the register transfer level (RTL) representation of digital systems. The algorithmic state machine (ASM) chart is introduced. A number of examples demonstrate the use of the ASM chart, RTL representation, and HDL description in the design of digital systems. This chapter is the most important chapter in the book as it prepares the student for more advanced design projects.

Chapter 9 presents formal procedures for the analysis and design of asynchronous sequential circuits. Methods are outlined to show how an asynchronous sequential circuit can be implemented as a combinational circuit with feedback. An alternate implementation is also described that uses SR latches as the storage elements in asynchronous sequential circuits.

Chapter 10 presents the most common integrated circuit digital logic families. The electronic circuits of the common gate in each family is analyzed using electrical circuit theory. A basic knowledge of electronic circuits is necessary to fully understand the material in this chapter. Examples of Verilog switch-level descriptions demonstrate the ability to simulate circuits constructed with MOS and CMOS transistors.

Chapter 11 outlines experiments that can be performed in the laboratory with hardware that is readily available commercially. The operation of the integrated circuits used in the experiments is explained by referring to diagrams of similar components introduced in previous chapters. Each experiment is presented informally and the student is expected to produce the circuit diagram and formulate a procedure for checking the operation of the circuit in the laboratory. The last section supplements the experiments with corresponding HDL experiments. Instead of, or in addition to, the hardware construction, the student can use the Verilog HDL software provided on the CD-ROM to simulate and check the design.

Chapter 12 presents the standard graphic symbols for logic functions recommended by an ANSI/IEEE standard. These graphic symbols have been developed for SSI and MSI components so that the user can recognize each function from the unique graphic symbol assigned. The chapter shows the standard graphic symbols of the integrated circuits used in the laboratory experiments. The various digital components that are represented throughout the book are similar to commercial integrated circuits. However, the text does not mention specific integrated circuits except in Chapters 11 and 12. The practical application of digital design will be enhanced by doing the suggested experiments in Chapter 11 while studying the theory presented in the text.

Each chapter has a list of references and a set of problems. Answers to selected problems appear in at the end of the book to aid the student and to help the independent reader. A solutions manual is available for the instructor from the publisher.

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computer system architecture 3rd edition solution manual by m morris mano free download

Description: 

Dealing with computer architecture as well as computer organization and design, this fully updated book provides the basic knowledge necessary to understand the hardware operation of digital computers. Written to aid electrical engineers, computer engineers, and computer scientists, the volume includes: KEY FEATURES: the computer architecture, organization, and design associated with computer hardware * the various digital components used in the organization and design of digital computers * detailed steps that a designer must go through in order to design an elementary basic computer * the organization and architecture of the central processing unit * the organization and architecture of input-output and memory * the concept of multiprocessing * two new chapters on pipeline and vector processing * two sections devoted completely to the reduced instruction set computer (RISC) * and sample worked-out problems to clarify topics.

Table of Contents

 1. Digital Logic Circuits.

 2. Digital Components.

 3. Data Representation.

 4. Register Transfer and Microoperations.

 5. Basic Computer Organization and Design.

 6. Programming the Basic Computer.

 7. Microprogrammed Control.

 8. Central Progressing Unit (CPU).

 9. Pipeline and Vector Processing.

10. Computer Arithmetic.

11. Input-Output Organization.

12. Memory Organization.

13. Multiprocessors.

Index.

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         126,64 MB

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Fundamentals of Engineering Thermodynamics 7th edition Borgnakke Sonntag Wylen Free Download

BOOK DESCRIPTION

Now in its seventh edition, Fundamentals of Thermodynamics continues to offer a comprehensive and rigorous treatment of classical thermodynamics, while retaining an engineering perspective. With concise, applications-oriented discussion of topics and self-test problems the text encourages students to monitor their own comprehension. The seventh edition is updated with additional examples, homework problems, and illustrations to increase student understanding.

The text lays the groundwork for subsequent studies in fields such as fluid mechanics, heat transfer and statistical thermodynamics, and prepares students to effectively apply thermodynamics in the practice of engineering.

Table of Contents

1 SOME INTRODUCTORY COMMENTS 11.1 The Simple Steam Power Plant, 1
1.2 Fuel Cells, 2
1.3 The Vapor-Compression Refrigeration Cycle, 5
1.4 The Thermoelectric Refrigerator, 7
1.5 The Air Separation Plant, 8
1.6 The Gas Turbine, 9
1.7 The Chemical Rocket Engine, 11
1.8 Other Applications and Environmental Issues, 12
2 SOME CONCEPTS AND DEFINITIONS 13
2.1 A Thermodynamic System and the Control Volume, 13
2.2 Macroscopic Versus Microscopic Point of View, 14
2.3 Properties and State of a Substance, 15
2.4 Processes and Cycles, 16
2.5 Units for Mass, Length, Time, and Force, 17
2.6 Energy, 20
2.7 Specific Volume and Density, 22
2.8 Pressure, 25
2.9 Equality of Temperature, 30
2.10 The Zeroth Law of Thermodynamics, 31
2.11 Temperature Scales, 31
2.12 Engineering Appilication, 33
Summary, 37
Problems, 38
3 PROPERTIES OF A PURE SUBSTANCE 47
3.1 The Pure Substance, 48
3.2 Vapor-Liquid-Solid-Phase Equilibrium in a Pure Substance, 48
3.3 Independent Properties of a Pure Substance, 55
3.4 Tables of Thermodynamic Properties, 55
3.5 Thermodynamic Surfaces, 63
3.6 The P�V�T Behavior of Low- and Moderate-Density Gases, 65
3.7 The Compressibility Factor, 69
3.8 Equations of State, 72
3.9 Computerized Tables, 73
3.10 Engineering Applications, 75
Summary, 77
Problems, 78
4 WORK AND HEAT 90
4.1 Definition of Work, 90
4.2 Units for Work, 92
4.3 Work Done at the Moving Boundary of a Simple Compressible
System, 93
4.4 Other Systems that Involve Work, 102
4.5 Concluding Remarks Regarding Work, 104
4.6 Definition of Heat, 106
4.7 Heat Transfer Modes, 107
4.8 Comparison of Heat and Work, 109
4.9 Engineering Applications, 110
Summary, 113
Problems, 114
5 THE FIRST LAW OF THERMODYNAMICS 127
5.1 The First Law of Thermodynamics for a Control Mass Undergoing
a Cycle, 127
5.2 The First Law of Thermodynamics for a Change in State of a Control
Mass, 128
5.3 Internal Energy�A Thermodynamic Property, 135
5.4 Problem Analysis and Solution Technique, 137
5.5 The Thermodynamic Property Enthalpy, 141
5.6 The Constant-Volume and Constant-Pressure Specific Heats, 146
5.7 The Internal Energy, Enthalpy, and Specific Heat of Ideal Gases, 147
5.8 The First Law as a Rate Equation, 154
5.9 Conservation of Mass, 156
5.10 Engineering Applications, 157
Summary, 160
Problems, 162
6 FIRST-LAW ANALYSIS FOR A CONTROL VOLUME 180
6.1 Conservation of Mass and the Control Volume, 180
6.2 The First Law of Thermodynamics for a Control Volume, 183
6.3 The Steady-State Process, 185
6.4 Examples of Steady-State Processes, 187
6.5 The Transient Process, 202
6.6 Engineering Applications, 211
Summary, 215
Problems, 218
7 THE SECOND LAW OF THERMODYNAMICS 238
7.1 Heat Engines and Refrigerators, 238
7.2 The Second Law of Thermodynamics, 244
7.3 The Reversible Process, 247
7.4 Factors that Render Processes Irreversible, 248
7.5 The Carnot Cycle, 251
7.6 Two Propositions Regarding the Efficiency of a Carnot Cycle, 253
7.7 The Thermodynamic Temperature Scale, 254
7.8 The Ideal-Gas Temperature Scale, 255
7.9 Ideal versus Real Machines, 259
Confirmation Pages
7.10 Engineering Applications, 262
Summary, 265
Problems, 267
8 ENTROPY 279
8.1 The Inequality of Clausius, 279
8.2 Entropy�A Property of a System, 283
8.3 The Entropy of a Pure Substance, 285
8.4 Entropy Change in Reversible Processes, 287
8.5 The Thermodynamic Property Relation, 291
8.6 Entropy Change of a Solid or Liquid, 293
8.7 Entropy Change of an Ideal Gas, 294
8.8 The Reversible Polytropic Process for an Ideal Gas, 298
8.9 Entropy Change of a Control Mass During an Irreversible
Process, 302
8.10 Entropy Generation, 303
8.11 Principle of the Increase of Entropy, 305
8.12 Entropy as a Rate Equation, 309
8.13 Some General Comments about Entropy and Chaos, 311
Summary, 313
Problems, 315
9 SECOND-LAW ANALYSIS FOR A CONTROL VOLUME 334
9.1 The Second Law of Thermodynamics for a Control Volume, 334
9.2 The Steady-State Process and the Transient Process, 336
9.3 The Steady-State Single-Flow Process, 345
9.4 Principle of the Increase of Entropy, 349
9.5 Engineering Applications; Efficiency, 352
9.6 Summary of General Control Volume Analysis, 358
Summary, 359
Problems, 361
10 IRREVERSIBILITY AND AVAILABILITY 381
10.1 Available Energy, Reversible Work, and Irreversibility, 381
10.2 Availability and Second-Law Efficiency, 393
10.3 Exergy Balance Equation, 401
10.4 Engineering Applications, 406
Summary, 407
Problems, 408
11 POWER AND REFRIGERATION SYSTEMS�WITH
PHASE CHANGE 421
11.1 Introduction to Power Systems, 422
11.2 The Rankine Cycle, 424
11.3 Effect of Pressure and Temperature on the Rankine Cycle, 427
11.4 The Reheat Cycle, 432
11.5 The Regenerative Cycle, 435
11.6 Deviation of Actual Cycles from Ideal Cycles, 442
11.7 Cogeneration, 447
11.8 Introduction to Refrigeration Systems, 448
11.9 The Vapor-Compression Refrigeration Cycle, 449
11.10 Working Fluids for Vapor-Compression Refrigeration Systems, 452
11.11 Deviation of the Actual Vapor-Compression Refrigeration Cycle from
the Ideal Cycle, 453
11.12 Refrigeration Cycle Configurations, 455
11.13 The Ammonia Absorption Refrigeration Cycle, 457
Summary, 459
Problems, 460
12 POWER AND REFRIGERATION SYSTEMS�GASEOUS
WORKING FLUIDS 476
12.1 Air-Standard Power Cycles, 476
12.2 The Brayton Cycle, 477
12.3 The Simple Gas-Turbine Cycle with a Regenerator, 484
12.4 Gas-Turbine Power Cycle Configurations, 486
12.5 The Air-Standard Cycle for Jet Propulsion, 489
12.6 The Air-Standard Refrigeration Cycle, 492
12.7 Reciprocating Engine Power Cycles, 494
12.8 The Otto Cycle, 496
12.9 The Diesel Cycle, 500
12.10 The Stirling Cycle, 503
12.11 The Atkinson and Miller Cycles, 503
12.12 Combined-Cycle Power and Refrigeration Systems, 505
Summary, 507
Problems, 509
13 GAS MIXTURES 523
13.1 General Considerations and Mixtures of Ideal Gases, 523
13.2 A Simplified Model of a Mixture Involving Gases and a Vapor, 530
13.3 The First Law Applied to Gas-Vapor Mixtures, 536
13.4 The Adiabatic Saturation Process, 538
13.5 Engineering Applications�Wet-Bulb and Dry-Bulb Temperatures
and the Psychrometric Chart, 541
Summary, 547
Problems, 548
14 THERMODYNAMIC RELATIONS 564
14.1 The Clapeyron Equation, 564
14.2 Mathematical Relations for a Homogeneous Phase, 568
14.3 The Maxwell Relations, 570
14.4 Thermodynamic Relations Involving Enthalpy, Internal Energy,
and Entropy, 572
14.5 Volume Expansivity and Isothermal and Adiabatic
Compressibility, 578
14.6 Real-Gas Behavior and Equations of State, 580
14.7 The Generalized Chart for Changes of Enthalpy at Constant
Temperature, 585
14.8 The Generalized Chart for Changes of Entropy at Constant
Temperature, 588
14.9 The Property Relation for Mixtures, 591
14.10 Pseudopure Substance Models for Real-Gas Mixtures, 594
14.11 Engineering Applications�Thermodynamic Tables, 599
Summary, 602
Problems, 604
15 CHEMICAL REACTIONS 615
15.1 Fuels, 615
15.2 The Combustion Process, 619
15.3 Enthalpy of Formation, 626
15.4 First-Law Analysis of Reacting Systems, 629
15.5 Enthalpy and Internal Energy of Combustion; Heat of Reaction, 635
15.6 Adiabatic Flame Temperature, 640
15.7 The Third Law of Thermodynamics and Absolute Entropy, 642
15.8 Second-Law Analysis of Reacting Systems, 643
15.9 Fuel Cells, 648
15.10 Engineering Applications, 651
Summary, 656
Problems, 658
16 INTRODUCTION TO PHASE AND CHEMICAL EQUILIBRIUM 672
16.1 Requirements for Equilibrium, 672
16.2 Equilibrium Between Two Phases of a Pure Substance, 674
16.3 Metastable Equilibrium, 678
16.4 Chemical Equilibrium, 679
16.5 Simultaneous Reactions, 689
16.6 Coal Gasification, 693
16.7 Ionization, 694
16.8 Applications, 696
Summary, 698
Problems, 700
17 COMPRESSIBLE FLOW 709
17.1 Stagnation Properties, 709
17.2 The Momentum Equation for a Control Volume, 711
17.3 Forces Acting on a Control Surface, 714
17.4 Adiabatic, One-Dimensional, Steady-State Flow of an Incompressible
Fluid through a Nozzle, 716
17.5 Velocity of Sound in an Ideal Gas, 718
17.6 Reversible, Adiabatic, One-Dimensional Flow of an Ideal Gas through
a Nozzle, 721
17.7 Mass Rate of Flow of an Ideal Gas through an Isentropic Nozzle, 724
17.8 Normal Shock in an Ideal Gas Flowing through a Nozzle, 729
17.9 Nozzle and Diffuser Coefficients, 734
17.10 Nozzle and Orifices as Flow-Measuring Devices, 737
Summary, 741
Problems, 746
CONTENTS OF APPENDIX
APPENDIX A SI UNITS: SINGLE-STATE PROPERTIES 755
APPENDIX B SI UNITS: THERMODYNAMIC TABLES 775
APPENDIX C IDEAL-GAS SPECIFIC HEAT 825
APPENDIX D EQUATIONS OF STATE 827
APPENDIX E FIGURES 832
APPENDIX F ENGLISH UNIT TABLES 837
ANSWERS TO SELECTED PROBLEMS 878
INDEX 889


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solutions manual fundamentals of thermodynamics 6th ed sonntag-borgnakke-van wylen free download

About the author (1998)

Richard E. Sonntag (Univ. of Michigan)
Claus Borgnakke (Univ. of Michigan)
Gordon J. Van Wylen (Hope College)

Book Description

For the past three decades, Sonntag, Borgnakke, and Van Wylen's FUNDAMENTALS OF THERMODYNAMICS has been the leading textbook in the field. Now updated and enhanced with numerous worked examples, homework problems, and illustrations, and a rich selection of Web-based learning resources, the new Sixth Edition continues to present a comprehensive and rigorous treatment of classical thermodynamics, while retaining an engineering perspective. The text lays the groundwork for subsequent studies in fields such as fluid mechanics, heat transfer and statistical thermodynamics, and prepares students to effectively apply thermodynamics in the practice of engineering.

Table of Contents

1. Some Introductory Comments.

2. Some Concepts and Definitions.

3. Properties of a Pure Substance.
4. Work and Heat.
5. The First Law of Thermodynamics.

6. First Law Analysis for a Control Volume.

7. The Second Law of Thermodynamics.
8. Entropy.
9. Second Law Analysis for a Control Volume.
10. Irreversibility and Availability.
11. Power and Refrigeration Systems.
12. Gas Mixtures.
13. Thermodynamic Relations.
14. Chemical Reactions.
15. Introduction to Phase and Chemical Equilibrium.
16. Compressible Flow.

Contents of Appendix.
Appendix A: SI Units: Single State Properties.
Appendix B: SI Units: Thermodynamic Tables.
Appendix C: Ideal-Gas Specific Heat.
Appendix D: Equations of State.
Appendix E: Figures.
Appendix F: English Unit Tables.
Answers to Selected Problems.

Index.

File Size ; 33.18Mb

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engineering mechanics statics 12th edition by rc hibbeler solutions manual

DESCRIPTION

In his substantial revision of Engineering Mechanics, R.C. Hibbeler empowers students to succeed in the whole learning experience.  Hibbeler achieves this by calling on his everyday classroom experience and his knowledge of how students learn inside and outside of lecture. 

In addition to over 50% new homework problems, the twelfth edition introduces the new elements of Conceptual Problems, Fundamental Problems and MasteringEngineering, the most technologically advanced online tutorial and homework system. 

- See more at: http://www.pearsonhighered.com/educator/product/Engineering-Mechanics-Statics/0136077900.page#sthash.zfRmXu0H.dpuf

Table of Contents

1 General Principles 3

Chapter Objectives 3

1.1 Mechanics 3

1.2 Fundamental Concepts 4

1.3 Units of Measurement 7

1.4 The International System of Units 9

1.5 Numerical Calculations 10

1.6 General Procedure for Analysis 12

2 Force Vectors 17

Chapter Objectives 17

2.1 Scalars and Vectors 17

2.2 Vector Operations 18

2.3 Vector Addition of Forces 20

2.4 Addition of a System of Coplanar Forces 32

2.5 Cartesian Vectors 43

2.6 Addition of Cartesian Vectors 46

2.7 Position Vectors 56

2.8 Force Vector Directed Along a Line 59

2.9 Dot Product 69

3 Equilibrium of a Particle 85

Chapter Objectives 85

3.1 Condition for the Equilibrium of a

Particle 85

3.2 The Free-Body Diagram 86

3.3 Coplanar Force Systems 89

3.4 Three-Dimensional Force Systems 103

4 Force System

Resultants 117

Chapter Objectives 117

4.1 Moment of a Force�Scalar

Formulation 117

4.2 Cross Product 121

4.3 Moment of a Force�Vector

Formulation 124

4.4 Principle of Moments 128

4.5 Moment of a Force about a

Specified Axis 139

4.6 Moment of a Couple 148

4.7 Simplification of a Force and Couple

System 160

4.8 Further Simplification of a Force and

Couple System 170

4.9 Reduction of a Simple Distributed

Loading 183

5 Equilibrium of a Rigid Body 199

Chapter Objectives 199

5.1 Conditions for Rigid-Body Equilibrium 199

5.2 Free-Body Diagrams 201

5.3 Equations of Equilibrium 214

5.4 Two- and Three-Force Members 224

5.5 Free-Body Diagrams 237

5.6 Equations of Equilibrium 242

5.7 Constraints and Statical Determinacy 243

6 Structural Analysis 263

Chapter Objectives 263

6.1 Simple Trusses 263

6.2 The Method of Joints 266

6.3 Zero-Force Members 272

6.4 The Method of Sections 280

6.5 Space Trusses 290

6.6 Frames and Machines 294

7Internal Forces 329

Chapter Objectives 329

7.1 Internal Forces Developed in Structural

Members 329

7.2 Shear and Moment Equations and

Diagrams 345

7.3 Relations between Distributed Load, Shear,

and Moment 354

7.4 Cables 365

8 Friction 387

Chapter Objectives 387

8.1 Characteristics of Dry Friction 387

8.2 Problems Involving Dry Friction 392

8.3 Wedges 412

8.4 Frictional Forces on Screws 414

8.5 Frictional Forces on Flat Belts 421

8.6 Frictional Forces on Collar Bearings, Pivot

Bearings, and Disks 429

8.7 Frictional Forces on Journal Bearings 432

8.8 Rolling Resistance 434

9 Center of Gravity andCentroid 447

Chapter Objectives 447

9.1 Center of Gravity, Center of Mass, and the

Centroid of a Body 447

9.2 Composite Bodies 470

9.3 Theorems of Pappus and Guldinus 484

9.4 Resultant of a General Distributed

Loading 493

9.5 Fluid Pressure 494

10 Moments of Inertia 511

Chapter Objectives 511

10.1 Definition of Moments of Inertia

for Areas 511

10.2 Parallel-Axis Theorem for an Area 512

10.3 Radius of Gyration of an Area 513

10.4 Moments of Inertia for

Composite Areas 522

10.5 Product of Inertia for an Area 530

10.6 Moments of Inertia for an Area about

Inclined Axes 534

10.7 Mohr�s Circle for Moments of Inertia 537

10.8 Mass Moment of Inertia 545

11 Virtual Work 563

Chapter Objectives 563

11.1 Definition of Work 563

11.2 Principle of Virtual Work 565

11.3 Principle of Virtual Work for a System of

Connected Rigid Bodies 567

11.4 Conservative Forces 579

11.5 Potential Energy 580

11.6 Potential-Energy Criterion for

Equilibrium 582

11.7 Stability of Equilibrium Configuration 583

Appendix

A. Mathematical Review and

Expressions 598

Fundamental Problems

Partial Solutions and

Answers 603

Answers to Selected

Problems 620

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