Fundamentals of Physics – I

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We are very happy to hand over this text book of F.Y.B.Sc. Fundamentals of Physics – I to F.Y.B.Sc. students. This book has been presented to you according to the...

Name : Fundamentals of Physics – I
Vendor : Prashant Publication
Type : F.Y.B.Sc. Sem. I PHY-101-T
Manufacturing : 2026 / 02 / 18
Barcode : 978-81-978300-4-4

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INTERNATIONAL	XS	S	M	L	XL	XXL	XXXL
EUROPE	32	34	36	38	40	42	44
US	0	2	4	6	8	10	12
CHEST FIT (INCHES)	28"	30"	32"	34"	36"	38"	40"
CHEST FIT (CM)	716	76	81	86	91.5	96.5	101.1
WAIST FIR (INCHES)	21"	23"	25"	27"	29"	31"	33"
WAIST FIR (CM)	53.5	58.5	63.5	68.5	74	79	84
HIPS FIR (INCHES)	33"	34"	36"	38"	40"	42"	44"
HIPS FIR (CM)	81.5	86.5	91.5	96.5	101	106.5	111.5
SKORT LENGTHS (SM)	36.5	38	39.5	41	42.5	44	45.5

We are very happy to hand over this text book of F.Y.B.Sc. Fundamentals of Physics – I to F.Y.B.Sc. students. This book has been presented to you according to the revised syllabus of Savitribai Phule Pune University implemented from June 2024.

An attempt is made to give more emphasis on essential modern concepts in physics. The concepts are illustrated and elaborated with necessary examples. Sufficient exercise is given at the end of each of each topic for the practice of the students. We hope that the book will fulfil the expectations of the students and teachers. We hope that this book will cater the exact requirements. We express our sincere thanks to our colleagues & persons who have helped us directly or indirectly.

We are thankful to our vibrant publisher Shri Rangrao Patil and all staff of Prasant Publications for their efforts and keen interest in publishing this book in a very limited span of time. Any comment, criticism and suggestions from the readers for improving the book will be highly appreciated.

1. Rotational Dynamics …………………………………………………………………….. 7
1.1 Torque, Angular Velocity and Angular Acceleration. (Revision)
1.2 Principle of Conservation of Angular Momentum.
1.3 Centre of Mass in uniformly distributed object. (Revision)
1.4 Statement of parallel axis and perpendicular axis theorem.
1.5 Moment of Inertia and Radius of gyration.
1.6 Calculation of moment of inertia for solid cylindrical, and spherical.
1.7 Kinetic Energy of Rotation
1.8 Rolling Motion on inclined plane
1.9 Moment of Inertia of a Flywheel
Numerical Problem.
2. Fluid Mechanics ………………………………………………………………………….. 42
i) Fluid Statics
2.1 Definition of a Fluid.
2.2 Pressure, Absolute Pressure and Gauge Pressure. (Revision)
2.3 Variation of Pressure with Depth.
2.4 Pascal’s Laws (Statement)
2.5 Buoyancy and Archimedes Principle. (Statement)
Numerical Problem
ii) Fluid Dynamics
2.6 Equation of Continuity.
2.7 Bernoulli’s Theorem.(Statement)
2.8 Application Based on Bernoulli’s Equation: Torricelli’s Theorem and
Venturimeter.(only theory)
2.9 Viscosity, Viscous force and Effect of Temperature. (Revision)
2.10 Stokes’ Law and Terminal Velocity.
2.11 Surface Tension, Surface Energy and angle of contact. (Revision)
2.12 Excess Pressure Inside liquid drop and Soap Bubble.
2.13 Determination of Surface Tension by Jaeger’s Method.
Numerical Problem.

3. Atomic Spectra……………………………………………………………………………. 94
3.1 Inadequacy of classical physics,
3.2 Brief Review of Black body Radiation,
3.3 Photoelectric effect, (Statement)
3.4 Compton Effect, (Statement)
3.5 Dual nature of radiation wave nature of particles,
3.6 Atomic spectra,
3.7 Line spectra of hydrogen atom,
3.8 Ritz Rydberg combination principle, (only principle)
3.9 Alpha Particle Scattering, (Review)
3.10 Rutherford Scattering Formula, (Revision)
3.11 Rutherford Model of atom and its limitations.
Numerical Problem.
4. Atomic Models ………………………………………………………………………….. 132
4.1 Bohr’s Model of Hydrogen atom,
4.2 Explanation of atomic spectra,
4.3 Correction for finite mass of the nucleus,
4.4 Bohr correspondence principle,
4.5 Limitations of Bohr model,
4.6 Discrete energy exchange by atom,
4.7 Frank Hertz Experiment,
4.8 Sommerfeld’s modification of Bohr’s Theory
Numerical Problem.