JEE Syllabus
Pressure in a fluid; Pascal’s law; Buoyancy; Surface energy and surface tension, capillary rise; Viscosity (Poiseuille’s equation excluded), Stoke’s law; Terminal velocity, Streamline flow, equation of continuity, Bernoulli’s theorem and its applications.
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Sections in Chapter
1. Fluids
2. Pressure in a fluid
3. Pascal's law
4. Atmospheric pressure
5. Archimedes' Principle
6. Pressure difference and buoyant force in accelerating fluids
7. Flow of fluids
8. Steady and turbulent flow
9. Irrotational flow of an incompressible and nonviscous fluid
10. Equation of continuity
11. Bernoulli's equation
12 Application of Bernoulli's equation
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Study Plan
Day 1
1. Fluids
2. Pressure in a fluid
3. Pascal's law
Day 2
4. Atmospheric pressure
5. Archimedes' Principle
Ex. 13.2
6. Pressure difference and buoyant force in accelerating fluids
Day 3
7. Flow of fluids
8. Steady and turbulent flow
9. Irrotational flow of an incompressible and nonviscous fluid
Worked Out Examples: 1,2
Day 4
10. Equation of continuity
WOE 3 to 8
Day 5
11. Bernoulli's equation
WOE 9,10
Day 6
12 Application of Bernoulli's equation
WOE 11
Exercises 1 to 5
Day 7
Exercises 6 to 15
Day 8
Exercises 16 to 25
Day 9
Exercises 26 to 35
Day 10
Objective I and II
Revision Period 30 minutes per day
Day 11
Short answer questions 1 to 8
Day 12
Short Answer Questions 9 to 16
Day 13
Concept review
Day 14
Formula review
Day 15 to 20 Revision or problems test paper books
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Links for
Audiovisual lectures
Lesson 21: Hydrostatic Pressure
www.curriki.org/nroc/Introductory_Physics_1/lesson21/Container.html
Lesson 22: Buoyancy
www.curriki.org/nroc/Introductory_Physics_1/lesson227/Container.html
Lesson 23: Fluid Flow Continuity
www.curriki.org/nroc/Introductory_Physics_1/lesson23/Container.html
Lesson 24: Bernoulli's Equation
www.curriki.org/nroc/Introductory_Physics_1/lesson24/Container.html
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