# CBSE class 11 Physics Notes of Chapter10

## Mechanical Properties of Fluids

CBSE class 11 Physics notes Chapter 10. Mechanical Properties of Fluids  Download in  PDF. CBSE class 11 Physics notes Chapter 10. Mechanical Properties of Fluids contains all the topic as per the syllabus of NCERT. Each topic is explained  in very easy language with colored diagrams. Typical topics are divided into parts so that student can understand  these topics step by step. CBSE class 11 Physics notes Chapter 10 is prepared by our experts as per the latest syllabus and exam pattern Class 11 Physics. Derivation of formulas is given in very simple ways after consulting from various books  and expert teachers. Also don’t forget to download CBSE Class 11 Notes of other Subjects like Chemistry, Mathematics Formulas sheets, Biology. Along with Notes, we are also providing Online Quizzes for each Chapters of class 11 Physics and other subjects. Online Quizzes are given topic wise and contains MCQs with timer to attempt the quizzes. After reading the CBSE Class 11 Physics Notes of Chapter 10  students can revise the whole Chapter in Our Online quizzes.

## Syllabus Covered CBSE Class 11 Physics Notes Chapter 10

### Mechanical Properties of Fluids

Pressure due to a fluid column; Pascal’s law and its applications (hydraulic lift and hydraulic brakes). Effect of gravity on fluid pressure.

Viscosity, Stokes’ law, terminal velocity, streamline and turbulent flow, critical velocity.Bernoulli’s theorem and its applications.

Surface energy and surface tension, angle of contact, excess of pressure across a curved surface, application of surface tension ideas to drops, bubbles and capillary rise.

#### All topics are included in CBSE class 11 Physics Notes Chapter 10

Some Terms, Liquid In Equilibrium, Pressure, Applications of Pressure, Density, Relative Density, Variation of Pressure With Depth, Hydrostatic Paradox, Pascal’s Law, Application For Pascal’s Law, Atmospheric Pressure, Buoyancy, Archimede’s Principle, Law of Flotation, Measurements of Pressure Difference, Intermolecular Force, Intermolecular Binding Energy of Liquid , Molecular Range , Sphere of Influence, Surface Film, Surface Tension, Important Questions, Surface Energy, Excess of Pressure Inside A Liquid Drop, Excess of Pressure Inside An Air Bubble In A Liquid, Excess of Pressure Inside A Soap Bubble, Variation In Surface Tension, Angle of Contact, Capillarity, Rise of Liquid In A Capillary Tube (Ascent Formula), Calculation of R, Rise of Liquid In A Tube of Insufficient Length, Radius of New Bubble When Two Soap Bubbles Coalesce, Hydrodynamics, Viscosity , Coefficient of Viscosity, Difference Between Viscosity and Solid Friction, Poiseuille’s Formula, Derivation of Poiseuille’s Formula (Using Dimensional Method), Stoke’s Law, Derivation of Stoke’s Law By Method of Dimensions, Terminal Velocity, Streamline Flow, Laminar Flow, Turbulent Flow, Critical Velocity, Reynold’s Number , Physical Significance of Reynold’s Number, Equation of Continuity, Energy of A Liquid, Bernoulli’s Theorem , Application of Bernoulli’s Theorem, Torricelli’s Theorem, Blowing off The Roof During Strom