Mechanical vibrations /
Den Hartog, J. P. 1901-1989.
Mechanical vibrations / J.P. Den Hartog. - xi, 436 pages ; 22 cm - Dover books on engineering .
Reprint. Originally published: 4th ed. New York : McGraw-Hill, 1956. With a new preface. Includes index.
Cover -- Title Page -- Copyright Page -- Preface -- Content -- List of Symbols -- Chapter 1. Kinematics Of Vibration -- 1.1. Definitions -- 1.2. The Vector Method of Representing Vibrations -- 1.3. Beats -- 1.4. A Case of Hydraulic-turbine Penstock Vibration -- 1.5. Representation by Complex Numbers -- 1.6. Work Done on Harmonic Motions -- 1.7. Non-harmonic Periodic Motions -- Chapter 2. The Single-Degree-Of-Freedom System -- 2.1. Degrees of Freedom -- 2.2. Derivation of the Differential Equation -- 2.3. Other Cases -- 2.4. Free Vibrations without Damping -- 2.5. Examples -- 2.6. Free Vibrations with Viscous Damping. 2.7. Forced Vibrations without Damping -- 2.8. Forced Vibrations with Viscous Damping -- 2.9. Frequency-measuring Instruments -- 2.10. Seismic Instruments -- 2.11. Electrical Measuring Instruments -- 2.12. Theory of Vibration Isolation -- 2.13. Application to Single-phase Electrical Machinery -- 2.14. Application to Automobiles -- Floating Power -- Chapter 3. Two Degrees Of Freedom -- 3.1. Free Vibrations -- Natural Modes -- 3.2. The Undamped Dynamic Vibration Absorber -- 3.3. The Damped Vibration Absorber -- 3.4. Ship Stabilization -- 3.5. Automobile Shock Absorbers -- 3.6. Isolation of Non-rigid Foundations -- 4.1. Free Vibrations without Damping -- 4.2. Forced Vibrations without Damping -- 4.3. Free and Forced Vibrations with Damping -- 4.4. Strings and Organ Pipes -- Longitudinal and Torsional Vibrations of Uniform Bars -- 4.5. Rayleigh's Method -- 4.6. Bending Vibrations of Uniform Beams -- 4.7. Beams of Variable Cross Section -- 4.8. Normal Functions and Their Applications -- 4.9. Stodola's Method for Higher Modes -- 4.10. Rings, Membranes, and Plates -- Chapter 4. Many Degrees Of Freedom -- Chapter 5. Multicylinder Engines -- 5.1. Troubles Peculiar to Reciprocating Engines -- 5.2. Dynamics of the Crank Mechanism. 5.3. Inertia Balance of Multicylinder Engines -- 5.4. Natural Frequencies of Torsional Vibration -- 5.5. Numerical Example -- 5.6. Torque Analysis -- 5.7. Work Done by Torque on Crank-shaft Oscillation -- 5.8. Damping of Torsional Vibration -- Propeller Damping -- 5.9. Dampers and Other Means of Mitigating Torsional Vibration -- 6.1. Critical Speeds -- 6.2. Holzer's Method for Flexural Critical Speeds -- 6.3. Balancing of Solid Rotors -- 6.4. Simultaneous Balancing in Two Planes -- 6.5. Balancing of Flexible Rotors -- Field Balancing -- 6.6. Secondary Critical Speeds -- 6.7. Critical Speeds of Helicopter Rotors -- 6.8. Gyroscopic Effects -- 6.9. Frame Vibration in Electrical Machines -- 6.10. Vibration of Propellers -- 6.11. Vibration of Steam-turbine Wheels and Blades -- Chapter 6. Rotating Machinery -- Chapter 7. Self-Excited Vibrations -- 7.1. General -- 7.2. Mathematical Criterion of Stability -- 7.3. Instability Caused by Friction -- 7.4. Internal Hysteresis of Shafts and Oil-film Lubrication in Bearings as Causes of Instability -- 7.5. Galloping of Electric Transmission Lines -- 7.6. Kármán Vortices -- 7.7. Hunting of Steam-engine Governors -- 7.8. Diesel-engine Fuel-injection Valves.
This classic text combines the scholarly insights of its distinguished author with the practical, problem-solving orientation of an experienced industrial engineer. Topics include the kinematics of vibration, degrees of freedom, gyroscopic effects, relaxation oscillations, Rayleigh's method, and more. Abundant examples and figures, plus more than 230 problems and answers. 1956 edition.
0486647854 (pbk.)
84018806
Vibration.
Mechanics, Applied.
TA355 / .D4 1985
620.3 / D.J.M
Mechanical vibrations / J.P. Den Hartog. - xi, 436 pages ; 22 cm - Dover books on engineering .
Reprint. Originally published: 4th ed. New York : McGraw-Hill, 1956. With a new preface. Includes index.
Cover -- Title Page -- Copyright Page -- Preface -- Content -- List of Symbols -- Chapter 1. Kinematics Of Vibration -- 1.1. Definitions -- 1.2. The Vector Method of Representing Vibrations -- 1.3. Beats -- 1.4. A Case of Hydraulic-turbine Penstock Vibration -- 1.5. Representation by Complex Numbers -- 1.6. Work Done on Harmonic Motions -- 1.7. Non-harmonic Periodic Motions -- Chapter 2. The Single-Degree-Of-Freedom System -- 2.1. Degrees of Freedom -- 2.2. Derivation of the Differential Equation -- 2.3. Other Cases -- 2.4. Free Vibrations without Damping -- 2.5. Examples -- 2.6. Free Vibrations with Viscous Damping. 2.7. Forced Vibrations without Damping -- 2.8. Forced Vibrations with Viscous Damping -- 2.9. Frequency-measuring Instruments -- 2.10. Seismic Instruments -- 2.11. Electrical Measuring Instruments -- 2.12. Theory of Vibration Isolation -- 2.13. Application to Single-phase Electrical Machinery -- 2.14. Application to Automobiles -- Floating Power -- Chapter 3. Two Degrees Of Freedom -- 3.1. Free Vibrations -- Natural Modes -- 3.2. The Undamped Dynamic Vibration Absorber -- 3.3. The Damped Vibration Absorber -- 3.4. Ship Stabilization -- 3.5. Automobile Shock Absorbers -- 3.6. Isolation of Non-rigid Foundations -- 4.1. Free Vibrations without Damping -- 4.2. Forced Vibrations without Damping -- 4.3. Free and Forced Vibrations with Damping -- 4.4. Strings and Organ Pipes -- Longitudinal and Torsional Vibrations of Uniform Bars -- 4.5. Rayleigh's Method -- 4.6. Bending Vibrations of Uniform Beams -- 4.7. Beams of Variable Cross Section -- 4.8. Normal Functions and Their Applications -- 4.9. Stodola's Method for Higher Modes -- 4.10. Rings, Membranes, and Plates -- Chapter 4. Many Degrees Of Freedom -- Chapter 5. Multicylinder Engines -- 5.1. Troubles Peculiar to Reciprocating Engines -- 5.2. Dynamics of the Crank Mechanism. 5.3. Inertia Balance of Multicylinder Engines -- 5.4. Natural Frequencies of Torsional Vibration -- 5.5. Numerical Example -- 5.6. Torque Analysis -- 5.7. Work Done by Torque on Crank-shaft Oscillation -- 5.8. Damping of Torsional Vibration -- Propeller Damping -- 5.9. Dampers and Other Means of Mitigating Torsional Vibration -- 6.1. Critical Speeds -- 6.2. Holzer's Method for Flexural Critical Speeds -- 6.3. Balancing of Solid Rotors -- 6.4. Simultaneous Balancing in Two Planes -- 6.5. Balancing of Flexible Rotors -- Field Balancing -- 6.6. Secondary Critical Speeds -- 6.7. Critical Speeds of Helicopter Rotors -- 6.8. Gyroscopic Effects -- 6.9. Frame Vibration in Electrical Machines -- 6.10. Vibration of Propellers -- 6.11. Vibration of Steam-turbine Wheels and Blades -- Chapter 6. Rotating Machinery -- Chapter 7. Self-Excited Vibrations -- 7.1. General -- 7.2. Mathematical Criterion of Stability -- 7.3. Instability Caused by Friction -- 7.4. Internal Hysteresis of Shafts and Oil-film Lubrication in Bearings as Causes of Instability -- 7.5. Galloping of Electric Transmission Lines -- 7.6. Kármán Vortices -- 7.7. Hunting of Steam-engine Governors -- 7.8. Diesel-engine Fuel-injection Valves.
This classic text combines the scholarly insights of its distinguished author with the practical, problem-solving orientation of an experienced industrial engineer. Topics include the kinematics of vibration, degrees of freedom, gyroscopic effects, relaxation oscillations, Rayleigh's method, and more. Abundant examples and figures, plus more than 230 problems and answers. 1956 edition.
0486647854 (pbk.)
84018806
Vibration.
Mechanics, Applied.
TA355 / .D4 1985
620.3 / D.J.M