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دانلود کتاب Engineering mechanics: problems and solutions
دانلود کتاب مکانیک مهندسی: مسائل و راه حل ها
مشخصات کتاب
Engineering mechanics: problems and solutions
ویرایش: نویسندگان: Arshad Noor Siddiquee, Zahid A. Khan, Pankul Goel سری: ISBN (شابک) : 1108411622, 9781108411622 ناشر: Cambridge University Press سال نشر: 2018 تعداد صفحات: 801 زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 31 مگابایت
قیمت کتاب (تومان) : 47,000
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توجه داشته باشید کتاب مکانیک مهندسی: مسائل و راه حل ها نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
توضیحاتی در مورد کتاب مکانیک مهندسی: مسائل و راه حل ها
این کتاب درسی جامع و مستقل به دانش آموزان در دستیابی به درک مفاهیم اساسی و کاربردهای مکانیک مهندسی کمک می کند. با دانش اولیه اولیه، خوانندگان از طریق مفاهیم مهم مکانیک مهندسی مانند نمودارهای بدنه آزاد، اصول انتقال نیروها، قانون اصطکاک کولن، تجزیه و تحلیل نیروها در اعضای خرپا و حرکت مستطیل در جهت افقی راهنمایی می شوند. قضایای مهمی از جمله قضیه لامی، قضیه واریگنون، قضیه محور موازی و قضیه محور عمود به صورت گام به گام برای وضوح بهتر مورد بحث قرار گرفته اند. کاربردهای اصطکاک نردبان، اصطکاک گوه، اصطکاک پیچ و اصطکاک تسمه به تفصیل مورد بحث قرار گرفته است. کتاب درسی در درجه اول برای دانشجویان رشته مهندسی در هند نوشته شده است. سوالات نظری متعدد، مسائل عددی حل نشده و مسائل حل شده در سراسر متن گنجانده شده است تا درک روشنی از اصول کلیدی مکانیک مهندسی ایجاد شود. این متن منبع ایده آلی برای دانشجویان سال اول مهندسی است که یک دوره مقدماتی و تک ترم در مکانیک مهندسی می گذرانند.
توضیحاتی درمورد کتاب به خارجی
This comprehensive and self-contained textbook will help students in acquiring an understanding of fundamental concepts and applications of engineering mechanics. With basic prior knowledge, the readers are guided through important concepts of engineering mechanics such as free body diagrams, principles of the transmissibility of forces, Coulomb's law of friction, analysis of forces in members of truss and rectilinear motion in horizontal direction. Important theorems including Lami's theorem, Varignon's theorem, parallel axis theorem and perpendicular axis theorem are discussed in a step-by-step manner for better clarity. Applications of ladder friction, wedge friction, screw friction and belt friction are discussed in detail. The textbook is primarily written for undergraduate engineering students in India. Numerous theoretical questions, unsolved numerical problems and solved problems are included throughout the text to develop a clear understanding of the key principles of engineering mechanics. This text is the ideal resource for first year engineering undergraduates taking an introductory, single-semester course in engineering mechanics.
فهرست مطالب
Contents Preface 1. Introduction 1.1 Introduction to Engineering Mechanics 1.2 Basic Idealizations: Particle, Continuum and Rigid Body 1.3 Units 1.3.1 Types of units 1.3.2 Systems of units 1.4 Scalar and Vector Quantities 1.5 Force and its Characteristics 1.6 Force System 1.6.1 Classification of force system 1.7 Laws of Mechanics 1.7.1 Laws of motion 1.7.2 The gravitational law of attraction 1.7.3 Laws of forces 1.8 Vector Algebra 1.8.1 Vectors’ representation 1.8.2 Classification of vectors 1.8.3 Vector operations 1.8.4 Vectorial representation of component of force 1.8.5 Vectorial representation of force passing through two points in space Theoretical Problems Numerical Problems Multiple Choice Questions 2. Two Dimensional Concurrent Force Systems 2.1 Resolution of Force and Force Systems 2.2 Resultant of Two Dimensional Concurrent Forces 2.3 Principle of Transmissibility of Forces 2.4 Free Body Diagrams 2.5 Equations of Equilibrium Conditions 2.6 Lami’s Theorem Numerical Problems Multiple Choice Questions 3. Two Dimensional Non-concurrent Force Systems 3.1 Introduction 3.2 Moment 3.3 Couple 3.4 Moment of Couple 3.5 Transfer of a Force to Parallel Position 3.6 Graphical Presentation of Moment 3.7 Varignon’s Theorem 3.8 Equations of Equilibrium Conditions 3.9 Types of Supports and their Reactions on Beams 3.10 Types of Beams 3.11 Types of Loading on Beams Numerical Problems Multiple Choice Questions 4. Friction 4.1 Introduction 4.2 Coulomb’s Laws of Dry Friction 4.3 Static Friction, Limiting Friction, Kinetic Friction 4.4 Angle of Friction 4.5 Angle of Repose 4.6 Cone of Friction Numerical Problems Multiple Choice Questions 5. Application of Friction 5.1 Ladder Friction 5.2 Wedge Friction 5.3 Screw Friction 5.4 Belt Friction 5.5 Band Brakes Theoretical Problems Numerical Problems Multiple Choice Questions 6. Analysis of Trusses 6.1 Introduction 6.2 Classification of Trusses 6.3 Assumptions for the Analysis of Perfect Truss 6.4 Analysis of Forces in the Members of the Truss 6.4.1 Method of joint 6.4.2 Method of section Thoretical Problems Numerical Problems Multiple Choice Questions 7. Centroid and Centre of Gravity 7.1 Introduction 7.2 Centre of Gravity, Centroid of Line, Plane Area and Volume 7.3 Centroid of L, C, T and I-Sections 7.4 Importance of Axis of Symmetry in Centroid and Centre of Gravity 7.5 Centroid of a Triangle 7.6 Centroid of a Quarter Circle and Semicircle 7.7 Centroid of Composite Sections and Bodies 7.8 Centre of Gravity of Cone and Hemisphere Numerical Problems Multiple Choice Questions 8. Moment of Inertia 8.1 Moment of Inertia of Plane Area and Mass 8.2 Radius of Gyration 8.3 Parallel Axis Theorem and its Significance 8.4 Perpendicular Axis Theorem 8.5 Moment of Inertia of a Rectangle 8.6 Moment of Inertia of a Triangle 8.7 Moment of Inertia of a Circle, a Quarter Circle and a Semicircle 8.8 Moment of Inertia of Composite Sections and Bodies 8.9 Mass Moment of Inertia of Prismatic Bar, Rectangular Plate, Circular Disc, Solid Cone and Sphere about Axis of Symmetry Numerical Problems Multiple Choice Questions 9. Shear Force and Bending Moment Diagrams 9.1 Beams 9.2 Types of Beams 9.3 Types of Loads and Beams 9.4 Shear Force and Bending Moment 9.5 Shear Force Diagram (SFD) and Bending Moment Diagram (BMD) 9.6 Sign Convention of Shear Force and Bending Moment in SFD and BMD 9.7 Relationship between Load Intensity (w), Shear Force (S) and Bending Moment (M) 9.8 Point of Contraflexure or Inflexion 9.9 Characteristics of SFD and BMD Theoretical Problems Numerical Problems Multiple Choice Questions 10. Kinematics: Rectilinear Motion of Particles 10.1 Introduction 10.2 Displacement, Velocity and Acceleration 10.3 Rectilinear Motion 10.4 Rectilinear Motion in Horizontal Direction (X-axis) 10.4.1 Motion with variable acceleration 10.4.2 Motion with uniform acceleration 10.5 Graphical Method for Motion Curves 10.6 Rectilinear Motion in Vertical Direction (Y-axis) Theoretical Problems Numerical Problems Multiple Choice Questions 11. Kinematics: Curvilinear Motion of Particles 11.1 Introduction 11.2 Rectangular Coordinates 11.3 Tangential and Normal Components of Acceleration 11.4 Projectile Theoretical Problems Numerical Problems Multiple Choice Questions 12 Kinetics of Particles 12.1 Introduction 12.2 Laws of Motion 12.3 D’Alembert’s Principle Theoretical Problems Numerical Problems Multiple Choice Questions 13. Work and Energy 13.1 Introduction 13.2 Work Done by a Force 13.3 Work Done by a Variable Force 13.4 Energy 13.5 Work–Energy Principle 13.6 Power 13.7 Principle of Conservation of Energy Theoretical Problems Numerical Problems Multiple Choice Questions 14. Impulse and Momentum 14.1 Introduction 14.2 Principle of Impulse and Momentum 14.3 Principle of Conservation of Momentum 14.4 Collisions of Elastic Bodies 14.4.1 Direct central impact 14.4.2 Oblique/Indirect central impact 14.4.3 Coefficient of restitution Theoretical Problems Numerical Problems Multiple Choice Questions 15. Kinematics of Rigid Bodies 15.1 Introduction 15.2 Rotational Motion 15.3 Angular Displacement, Angular Velocity and Angular Acceleration 15.4 Relationship between Linear and Angular Velocity 15.5 Relationship between Linear, Normal and Angular Acceleration 15.6 Equations of Angular Motion 15.7 General Plane Motion 15.8 Instantaneous Centre 15.9 Relative Velocity Theoretical Problems Numerical Problems Multiple Choice Questions 16. Kinetics of Rigid Bodies 16.1 Introduction 16.2 Kinetics of Rotary Motion 16.2.1 Moment of momentum 16.2.2 Torque and angular momentum 16.3 Kinetic Energy of a Body in Translatory and Rotary Motion 16.4 Principle of Conservation of Energy 16.5 Principle of Work and Energy Theoretical Problems Numerical Problems Multiple Choice Questions 17. Virtual Work 17.1 Introduction 17.2 Principle of Virtual Work 17.3 Work Done by Forces 17.4 Work Done by Moments Theoretical Problems Numerical Problems Multiple Choice Questions Index
