Description
Bulk Properties Of Matter
JasminderJeet Singh
Brought to you by:
AHRDO
Alpha Human Resource Development Organization
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| Syllabus | |
| Mechanical Properties of Solids. | |
| 1) | Elastic Behaviour. |
| 2) | Stress-Strain relationship, Hooke’s Law. |
| 3) | Young’s Modulus, Bulk Modulus and Shear Modulus of rigidity. |
| 4) | Poisson’s ratio, Elastic Energy. |
| Mechanical Properties of Liquids. | |
| 1) | Pressure due to fluid column. |
| 2) | Pascal’s Law and its applications (hydraulic lift and hydraulic brakes). |
| 3) | Effect of Gravity on Fluid Pressure. |
| 4) | Viscosity. Stroke’s Law. Terminal Velocity. |
| 5) | Streamlined and Turbulent Flow of fluids, Critical Velocity. Bernoulli’s Theorem and its applications. |
| 6) | Surface energy and surface tension, angle of contact. Excess of pressure across a curved surface. |
| 7) | Application of surface tension idea liquid drops, soap bubbles and capillary action. |
| Published by: | AHRDO, 34, New Lajpat Nagar, Pakhowal Road, Model Gram, Ludhiana – 02. | Editions | |
| 1st Edition | 2008 | ||
| Mobile No. | 98141-23640, 97811-23640 | 2st Edition | 2010 |
| Designed by: | AngadJit Singh. | 3st Edition | 2014 |
| Printed at: | Ace Designers, Ludhiana. | 4st Edition | 2015 |
| Cost : | ` 250/- |
| CONTENTS | ||||
| 1 | Elasticity. | 5 – 28 | ||
| Deforming and Restoring forces. | 5 | |||
| Elasticity. | 6 | |||
| Stress. | 7 | |||
| Breaking Stress. | 8 | |||
| Difference between stress and pressure. | 9 | |||
| Strain. | 10 | |||
| Hooke’s Law. | 12 | |||
| Ductile, Malleable, brittle substances and Elastomers. | 15 | |||
| Modulus of Elasticity. | 16 | |||
| Young’s Modulus of Elasticity. | 16 | |||
| Bulk Modulus of Elasticity. | 20 | |||
| Modulus of Rigidity. | 21 | |||
| Poisson’s Ratio. | 23 | |||
| Potential Energy stored in a stretched wire. | 24 | |||
| Application of Elasticity. | 26 | |||
| 2 | Pressure. | 29 – 50 | ||
| Fluids. | 29 | |||
| Pressure. | 31 | |||
| Density. | 33 | |||
| Relative Density. | 34 | |||
| Pascal’s Law. | 37 | |||
| Application of Pascal’s Law. | 39 | |||
| Variation of pressure with depth. | 40 | |||
| Atmospheric Pressure. | 42 | |||
| Archimedes’s Principle. | 45 | |||
| Unsolved Numericals. | 48 | |||
| 3 | Flow of Fluids. | 51 – 68 | ||
| Streamlined Flow. | 51 | |||
| Laminar Flow. | 52 | |||
| Reynolds Number. | 53 | |||
| Equation of Continuity. | 54 | |||
| Energy of a Fluid. | 56 | |||
| Bernoulli’s Theorem. | 57 | |||
| Venturimeter. | 62 | |||
| Torricelli’s Theorem. | 65 | |||
| Unsolved Numericals. | 67 | |||
| 4 | Viscosity. | 69 – 81 | ||
| Laminar Flow. | 69 | |||
| Viscosity. | 70 | |||
| Stroke’s Law. | 74 | |||
| Terminal Velocity. | 75 | |||
| Poiseuille’s Equation. | 78 | |||
| Unsolved Numericals. | 81 | |||
| 5 | Surface Tension. | 82 – 102 | ||
| Cohesive and Adhesive Forces. | 82 | |||
| Surface Tension. | 83 | |||
| Molecular Theory of Surface Tension. | 85 | |||
| Surface Energy. | 87 | |||
| Excess of pressure inside a liquid drop. | 91 | |||
| Excess of pressure inside a soap bubble. | 92 | |||
| Excess of pressure inside an air bubble. | 93 | |||
| Angle of Contact. | 94 | |||
| Shape of Liquid Meniscus. | 97 | |||
| Capillary Action. | 99 | |||
| Unsolved Numericals. | 102 | |||
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