■ For links to chapter 2 to chapter 8, click here
9. Chapter 9 - Mechanical properties of Solids
• Longitudinal stress and strain
• Shear stress and strain
• Hydraulic stress and Volume strain
Chapter 9.1
• Stress-strain curve
• Proportional limit point
• Yield point
• Yield strength
• Ultimate strength
• Plastic deformation
• Elastomers
Chapter 9.2
• Young's modulus
• Bulk modulus
Chapter 9.3
• Shear modulus
• Cavendish experiment
10. Chapter 10 - Mechanical properties of Fluids
• Pressure due to fluid at rest
• Relative density
Chapter 10.1
• Pressure at an interior point
• Pressure difference between two points
Chapter 10.2
• Pressure in the horizontal direction
Chapter 10.3
• Hydrostatic Paradox
• U-tube manometer
• Absolute pressure
• Gauge pressure
• Solved examples
Chapter 10.4
• Mercury barometer
• Solved examples
Chapter 10.5
• Pascal's law of transmission of fluid pressure
• Hydraulic lift
• Hydraulic brake
• Solved examples
Chapter 10.6
• Buoyancy and flotation
• Loss of weight in a fluid
• Solved examples
Chapter 10.7
• Archimedes principle
• Solved examples
Chapter 10.8
• Streamline flow
• Equation of continuity
• Volume flux or Flow rate
• Critical speed• Turbulent flow
Chapter 10.9
• Bernoulli's equation
Chapter 10.10
• Venturimeter
• Solved examples
Chapter 10.11
• Speed of efflux
• Solved examples
Chapter 10.12
• Magnus effect
• Solved examples
Chapter 10.13
• Viscosity
• Laminar flow
• Solved examples
Chapter 10.14
• Stokes Law
• Reynolds Number
• Solved examples
Chapter 10.15
• Surface tension
• Solved examples
Chapter 10.16
• Contact angle
• Capillarity
Chapter 10.17
• Pressure inside drops and bubbles
• Action of detergents in cleaning oily fabric
11. Chapter 11 - Thermal properties of Matter
• Temperature and heat
• Thermal expansion
Chapter 11.1
• Relation between coefficients of expansion
• Solved examples
Chapter 11.2
• Coefficient of volume expansion of gases
• Anomalous behaviour or water
• Thermal stress
• Solved examples
Chapter 11.3
• Specific heat capacity
• Isolated system
• Calorimetry
• Solved examples
Chapter 11.4
• Latent heat of fusion
• Latent heat of vaporisation
• Change of state
• Boiling point
Chapter 11.5
• Phase diagram (P-T diagram)
• Triple point
• Critical point
Chapter 11.6
• Phase diagram of CO2
• Phase diagram of H2O
• Solved example
Chapter 11.7
• Heat transfer through conduction
• Rate of flow of heat through a conductor
• Conductors connected in series
Chapter 11.8
• Heat transfer through convection
• Formation of sea breeze and land breeze
• Heat transfer through radiation
• Working of Dewar flask
Chapter 11.9
• Rate of cooling
• Newton's Law of cooling
Chapter 11.10
• Solved examples on temperature scales
12. Chapter 12- Thermodynamics
• Magnus effect
• Solved examples
Chapter 10.13
• Viscosity
• Laminar flow
• Solved examples
Chapter 10.14
• Stokes Law
• Reynolds Number
• Solved examples
Chapter 10.15
• Surface tension
• Solved examples
Chapter 10.16
• Contact angle
• Capillarity
Chapter 10.17
• Pressure inside drops and bubbles
• Action of detergents in cleaning oily fabric
11. Chapter 11 - Thermal properties of Matter
• Temperature and heat
• Thermal expansion
Chapter 11.1
• Relation between coefficients of expansion
• Solved examples
Chapter 11.2
• Coefficient of volume expansion of gases
• Anomalous behaviour or water
• Thermal stress
• Solved examples
Chapter 11.3
• Specific heat capacity
• Isolated system
• Calorimetry
• Solved examples
Chapter 11.4
• Latent heat of fusion
• Latent heat of vaporisation
• Change of state
• Boiling point
Chapter 11.5
• Phase diagram (P-T diagram)
• Triple point
• Critical point
Chapter 11.6
• Phase diagram of CO2
• Phase diagram of H2O
• Solved example
Chapter 11.7
• Heat transfer through conduction
• Rate of flow of heat through a conductor
• Conductors connected in series
Chapter 11.8
• Heat transfer through convection
• Formation of sea breeze and land breeze
• Heat transfer through radiation
• Working of Dewar flask
Chapter 11.9
• Rate of cooling
• Newton's Law of cooling
Chapter 11.10
• Solved examples on temperature scales
12. Chapter 12- Thermodynamics
• Macro and micro properties
• Quasi-static process
• Reversible process
Chapter 12.1
• Internal energy
• First law of thermodynamics
Chapter 12.2
• Work done in a thermodynamic process
• Work done in an isothermal process
Chapter 12.3
• Work done in isobaric, isochoric and adiabatic processes
• Equation connecting temperatures and volumes in adiabatic process
Chapter 12.4
• Internal energy and PV diagram
• Work done in a cyclic process
Chapter 12.5
• Thermodynamic processes in a heat engine
• Efficiency of a heat engine
• Quasi-static process
• Reversible process
Chapter 12.1
• Internal energy
• First law of thermodynamics
Chapter 12.2
• Work done in a thermodynamic process
• Work done in an isothermal process
Chapter 12.3
• Work done in isobaric, isochoric and adiabatic processes
• Equation connecting temperatures and volumes in adiabatic process
Chapter 12.4
• Internal energy and PV diagram
• Work done in a cyclic process
Chapter 12.5
• Thermodynamic processes in a heat engine
• Efficiency of a heat engine
Chapter 12.6
• Thermodynamic processes in a refrigerator
• Coefficient of performance of a refrigerator
• Heat pump
Chapter 12.7
• Various processes in the Carnot engine
Chapter 12.8
• Efficiency of a Carnot engine
Chapter 12.9
• Working of a Carnot refrigerator
• Coefficient of performance (COP) of a Carnot refrigerator
Chapter 12.10
• Second law of thermodynamics
• Reason why efficiency of a heat engine cannot be 100%
• Reason why COP of a Carnot refrigerator cannot be infinity
Chapter 12.11
• Solved examples related to some general topics in thermodynamics
13. Chapter 13 - Kinetic Theory
• Boyle's Law
• Avogadro's hypothesis
• Ideal gas equation
• Universal gas constant
Chapter 13.1
• Derivation of pressure using kinetic theory
• Root mean square velocity
cont..
• Thermodynamic processes in a refrigerator
• Coefficient of performance of a refrigerator
• Heat pump
Chapter 12.7
• Various processes in the Carnot engine
Chapter 12.8
• Efficiency of a Carnot engine
Chapter 12.9
• Working of a Carnot refrigerator
• Coefficient of performance (COP) of a Carnot refrigerator
Chapter 12.10
• Second law of thermodynamics
• Reason why efficiency of a heat engine cannot be 100%
• Reason why COP of a Carnot refrigerator cannot be infinity
Chapter 12.11
• Solved examples related to some general topics in thermodynamics
13. Chapter 13 - Kinetic Theory
• Boyle's Law
• Avogadro's hypothesis
• Ideal gas equation
• Universal gas constant
Chapter 13.1
• Derivation of pressure using kinetic theory
• Root mean square velocity
cont..
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