An Introduction to Mechanical Engineering
HE engineering science PROFESSION. what's Engineering? World Health Organization ar Mechanical Engineers? Career methods. Typical Program of Study. 2. MECHANICAL style. style method. producing Processes. Case Study in abstract Design: Mousetrap-Powered Vehicles. Case Study in Urban Power Infrastructures. Case Study in Computer-Aided Design: noninvasive Medical Imaging. 3. TECHNICAL PROBLEM-SOLVING AND COMMUNICATION SKILLS. General Technical drawback finding Approach. Unit Systems and Conversions. important Digits. Dimensional Consistency. Estimation in Engineering. Communication Skills in Engineering four. FORCES IN STRUCTURES AND MACHINES. Forces in Rectangular and Polar Forms. Resultant of many Forces. Moment of a Force.
Equilibrium of Forces and Moments. style Application: Rolling-Element Bearings. 5. MATERIALS AND STRESSES. Tension and Compression. Material Response. Shear. Engineering Materials. issue of Safety. 6. FLUIDS ENGINEERING Properties of Fluids. Pressure and Buoyancy Force. bedded and Turbulent Fluid Flows. Fluid Flow in Pipes. Drag Force. Lift Force. 7. THERMAL AND ENERGY SYSTEMS. energy, Work, and Power. Heat as Energy in Transit. Energy Conservation and Conversion. Heat Engines and potency. Case Study 1: Internal-Combustion Engines. Case Study 2: power Generation. Case Study 3: Jet Engines. 8. MOTION AND POWER TRANSMISSION. motion Motion. style Application: Gears. Speed, Torque, and Power in Gearsets. straightforward and Compound Geartrains. style Application: Belt and Chain Drives. Planetary Geartrains. APPENDIX A. Greek alphabet. APPENDIX B. trig REVIEW.
Equilibrium of Forces and Moments. style Application: Rolling-Element Bearings. 5. MATERIALS AND STRESSES. Tension and Compression. Material Response. Shear. Engineering Materials. issue of Safety. 6. FLUIDS ENGINEERING Properties of Fluids. Pressure and Buoyancy Force. bedded and Turbulent Fluid Flows. Fluid Flow in Pipes. Drag Force. Lift Force. 7. THERMAL AND ENERGY SYSTEMS. energy, Work, and Power. Heat as Energy in Transit. Energy Conservation and Conversion. Heat Engines and potency. Case Study 1: Internal-Combustion Engines. Case Study 2: power Generation. Case Study 3: Jet Engines. 8. MOTION AND POWER TRANSMISSION. motion Motion. style Application: Gears. Speed, Torque, and Power in Gearsets. straightforward and Compound Geartrains. style Application: Belt and Chain Drives. Planetary Geartrains. APPENDIX A. Greek alphabet. APPENDIX B. trig REVIEW.
AN INTRODUCTION TO engineering introduces students to the ever-emerging field of engineering, giving associate degree appreciation for a way engineers style the hardware that builds and improves societies all round the world. supposed for {college kids|for college students} in their 1st or second year of a typical college or university program in engineering or a closely connected field, the text balances the treatments of technical problem-solving skills, design, engineering analysis, and fashionable technology.
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