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A Textbook of Fluid Mechanics & Hydraulic Machines (in SI Units)
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Preise | Feb. 17 | Apr. 17 | Aug. 17 |
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A Textbook of Fluid Mechanics and Hydraulic Machines (Multicolour Edition) (2014)
ISBN: 9788121916660 bzw. 8121916666, Band: 5, Sprache unbekannt, S. Chand & Company Ltd, Taschenbuch, neu.
Von Händler/Antiquariat, BookVistas.
S. Chand & Company Ltd, 2014. 5th or later edition. Softcover. New. CONTENTS: Part A FLUID MECHANICS I. Properties of Fluids 1. Introduction 2. Fluid 3. Liquids and their Properties 4. Density i. Mass Density ii. Weight Density iii. Specific Volume 5. Specific Gravity 6. Viscosity : i. Newton`s Law of Viscosity ii. Types of Fluids iii. Effect of Temperature on Viscosity iv. Effect of Pressure on Viscosity 7. Thermodynamic Properties 8. Surface Tension and Capillarity i. Surface Tension ii. Pressure Inside a Water Droplet, Soap Bubble and a Liquid Jet iii. Capillarity 9. Compressibility and Bulk Modulus 10. Vapour Pressure Highlights Objective Type Questions Theoretical Questions Unsolved Examples II. Pressure Measurement 1. Pressure of a Fluid 2. Pressure Head of a Liquid 3. Pascal`s Law 4. Absolute and Gauge Pressures 5. Measurement of Pressure i. Manometer ii. Simple Manometers iii. Differential Manometers iv. Advantages and Limitations of manometers v. Mechanical Gauges 6. Pressure at a Point in Compressible Fluid Highlights Objective Type Questions Theoretical Questions Unsolved Examples III. Hydrostatic Forces on Surfaces 1. Introduction 2. Total Pressure and Centre of Pressure 3. Horizontally Immersed Surface 4. Vertically Immersed Surface 5. Inclined Immersed Surface 6. Curved Immersed Surface 7. Dams 8. Possibilities of Dam Failure 9. Lock Gates Highlights Objective Type Questions Theoretical Questions Unsolved Examples IV. Buoyancy and Floatation 1. Buoyancy 2. Centre of Buoyancy 3. Types of Equilibrium of Floating Bodies : i. Stable Equilibrium ii. Unstable Equilibrium iii. Neutral Equilibrium 4. Metacentre and Metacentric Height 5. Determination of Metacentric Height : i. Analytical Method ii. Experimental Method 6. Oscillation (Rolling) of a Floating Body Highlights Objective Type Questions Theoretical Questions Unsolved Examples V. Fluid Kinematics 1. Introduction 2. Description of Fluid Motion : i. Langrangian Method ii. Eulerian Method 3. Types of Fluid Flow i. Steady and Unsteady Flows ii. Uniform and Non-uniform Flows iii. One, Two and Three Dimensional Flows iv. Rotational and Irrotational Flows v. Laminar and Turbulent Flows vi. Compressible and Incompressible Flows 4. Types of Flow Lines i. Path Line ii. Streak Line iii. Stream Tube iv. Streak Line 5. Rate of Flow or Discharge 6. Continuity Equation 7. Continuity Equation in Cartesian Co-ordinates 8. Equation of Continuity in Polar Co-ordinates 9. Circulation and Vorticity 10. Velocity Potential and Stream Function : i. Velocity Potential ii. Stream Function iii. Relation between Stream Function and Velocity Potential 11. Flow Nets : i. Methods of Drawing Flow Nets ii. Uses and Limitations of Flow Nets Highlights Objective Type Questions Theoretical Questions Unsolved Examples VI. Fluid Dynamics 1. Introduction 2. Different Types of Heads (or Energies) of a Liquid in Motion 3. Bernoulli`s Equation 4. Euler`s Equation for Motion 5. Bernoulli`s Equation for Real Fluid 6. Practical Applications of Bernoulli`s Equation : i. Venturimeter : A. Horizontal Venturimeters b. Vertical and Inclined Venturimeters ii. Onficemeter iii. Rotameter and Elbow Meter A. Rotameter b. Elbow Meter iv. Pilot Tube 7. Free Liquid Jet 8. Impulse-momentum Equation 9. Kinetic Energy and Momentum Correction Factors (Coriolis Co-efficients) 10. Momentum of Momentum Equation 11. Vortex Motion i. Forced Vortex Flow ii. Free Vortex Flow iii. Equation of Motion for Vortex Flow iv. Equation of Forced Vortex Flow v. Rotation of Liquid in a Closed Cylindrical Vessel 12. Liquids in Relative Equlibrium : i. Liquid in a Container Subjected to Uniform Acceleration in the Horizontal Direction ii. Liquid in a Container Subjected to Uniform Acceleration Vertical Direction iii. Liquid in Container Subjected to Uniform Acceleration along Inclined Plane Highlights Objective Type Questions Theoretical Questions Unsolve Printed Pages: 1568.
A Textbook of Fluid Mechanics and Hydraulic Machines (Multicolour Edition) (2014)
ISBN: 9788121916660 bzw. 8121916666, Band: 5, Sprache unbekannt, S. Chand & Company Ltd, Taschenbuch, neu.
CONTENTS: Part A FLUID MECHANICS I. Properties of Fluids 1. Introduction 2. Fluid 3. Liquids and their Properties 4. Density i. Mass Density ii. Weight Density iii. Specific Volume 5. Specific Gravity 6. Viscosity : i. Newton`s Law of Viscosity ii. Types of Fluids iii. Effect of Temperature on Viscosity iv. Effect of Pressure on Viscosity 7. Thermodynamic Properties 8. Surface Tension and Capillarity i. Surface Tension ii. Pressure Inside a Water Droplet, Soap Bubble and a Liquid Jet iii. Capillarity 9. Compressibility and Bulk Modulus 10. Vapour Pressure Highlights Objective Type Questions Theoretical Questions Unsolved Examples II. Pressure Measurement 1. Pressure of a Fluid 2. Pressure Head of a Liquid 3. Pascal`s Law 4. Absolute and Gauge Pressures 5. Measurement of Pressure i. Manometer ii. Simple Manometers iii. Differential Manometers iv. Advantages and Limitations of manometers v. Mechanical Gauges 6. Pressure at a Point in Compressible Fluid Highlights Objective Type Questions Theoretical Questions Unsolved Examples III. Hydrostatic Forces on Surfaces 1. Introduction 2. Total Pressure and Centre of Pressure 3. Horizontally Immersed Surface 4. Vertically Immersed Surface 5. Inclined Immersed Surface 6. Curved Immersed Surface 7. Dams 8. Possibilities of Dam Failure 9. Lock Gates Highlights Objective Type Questions Theoretical Questions Unsolved Examples IV. Buoyancy and Floatation 1. Buoyancy 2. Centre of Buoyancy 3. Types of Equilibrium of Floating Bodies : i. Stable Equilibrium ii. Unstable Equilibrium iii. Neutral Equilibrium 4. Metacentre and Metacentric Height 5. Determination of Metacentric Height : i. Analytical Method ii. Experimental Method 6. Oscillation (Rolling) of a Floating Body Highlights Objective Type Questions Theoretical Questions Unsolved Examples V. Fluid Kinematics 1. Introduction 2. Description of Fluid Motion : i. Langrangian Method ii. Eulerian Method 3. Types of Fluid Flow i. Steady and Unsteady Flows ii. Uniform and Non-uniform Flows iii. One, Two and Three Dimensional Flows iv. Rotational and Irrotational Flows v. Laminar and Turbulent Flows vi. Compressible and Incompressible Flows 4. Types of Flow Lines i. Path Line ii. Streak Line iii. Stream Tube iv. Streak Line 5. Rate of Flow or Discharge 6. Continuity Equation 7. Continuity Equation in Cartesian Co-ordinates 8. Equation of Continuity in Polar Co-ordinates 9. Circulation and Vorticity 10. Velocity Potential and Stream Function : i. Velocity Potential ii. Stream Function iii. Relation between Stream Function and Velocity Potential 11. Flow Nets : i. Methods of Drawing Flow Nets ii. Uses and Limitations of Flow Nets Highlights Objective Type Questions Theoretical Questions Unsolved Examples VI. Fluid Dynamics 1. Introduction 2. Different Types of Heads (or Energies) of a Liquid in Motion 3. Bernoulli`s Equation 4. Euler`s Equation for Motion 5. Bernoulli`s Equation for Real Fluid 6. Practical Applications of Bernoulli`s Equation : i. Venturimeter : A. Horizontal Venturimeters b. Vertical and Inclined Venturimeters ii. Onficemeter iii. Rotameter and Elbow Meter A. Rotameter b. Elbow Meter iv. Pilot Tube 7. Free Liquid Jet 8. Impulse-momentum Equation 9. Kinetic Energy and Momentum Correction Factors (Coriolis Co-efficients) 10. Momentum of Momentum Equation 11. Vortex Motion i. Forced Vortex Flow ii. Free Vortex Flow iii. Equation of Motion for Vortex Flow iv. Equation of Forced Vortex Flow v. Rotation of Liquid in a Closed Cylindrical Vessel 12. Liquids in Relative Equlibrium : i. Liquid in a Container Subjected to Uniform Acceleration in the Horizontal Direction ii. Liquid in a Container Subjected to Uniform Acceleration Vertical Direction iii. Liquid in Container Subjected to Uniform Acceleration along Inclined Plane Highlights Objective Type Questions Theoretical Questions Unsolve Printed Pages: 1568.
Fluid Mechanics and Hydraulic Machines (2016)
ISBN: 9789385401374 bzw. 9385401378, in Englisch, 1588 Seiten, S Chand & Company, Taschenbuch, neu.
Von Händler/Antiquariat, National Book Enterprises.
Conventional questions with answers/solutions and multiple choice questions with answers and explanations. Paperback, लेबल: S Chand & Company, S Chand & Company, उत्पाद समूह: Book, प्रकाशित: 2016, स्टूडियो: S Chand & Company, बिक्री रैंक: 62899.
Textbook Of Fluid Mechanics & Hydraulic Machines In Si Units (2015)
ISBN: 9789385401374 bzw. 9385401378, in Englisch, S Chand & Co Ltd, Taschenbuch, gebraucht.
Von Händler/Antiquariat, SlicknChick.
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
Textbook Of Fluid Mechanics & Hydraulic Machines In Si Units (2015)
ISBN: 9789385401374 bzw. 9385401378, in Englisch, S Chand & Co Ltd, Taschenbuch, neu.
Von Händler/Antiquariat, EternalBooks US.
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
A Textbook of Fluid Mechanics and Hydraulic Machines (1998)
ISBN: 9788121916660 bzw. 8121916666, Sprache unbekannt, S. Chand & Company Ltd. Sultan Chand & Company, Taschenbuch, neu.
Von Händler/Antiquariat, Bestdealsbooks, DELHI, NEW DELHI, [RE:3].
PAPERBACK.
Fluid Mechanics and Hydraulic Machines (1998)
ISBN: 9788121916660 bzw. 8121916666, Sprache unbekannt, S Chand & Co Ltd, Taschenbuch, neu.
Von Händler/Antiquariat, More Books, FL, MIAMI, [RE:3].
Paperback.