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Lab 7 LASER Wavelength and Particle Size Measurement by Lee’s Method | ENGINEERING

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LASER Wavelength Experiment | ENGINEERING PHYSICS LAB Lab 7: LASER Wavelength and Particle Size Measurement Document Information Experiment: 7. To determine the wavelength of LASER light using diffraction grating and hence determine the particle size of lycopodium powder Course Code: SH 151 – ENGINEERING PHYSICS LAB Description: Complete lab report containing theory, apparatus, procedure, observations, […]

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Lab 5 Newton’s Rings Experiment by Lee’s Method | ENGINEERING

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Newton’s Rings Experiment | ENGINEERING PHYSICS LAB Lab 5: Newton’s Rings Experiment Document Information Experiment: 5. To determine the wavelength of the sodium light using Newton’s rings Course Code: SH 151 – ENGINEERING PHYSICS LAB Description: Complete lab report including theory, apparatus, procedure, observations, calculations, results and precautions for Newton’s rings experiment to determine sodium

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Lab 3 Thermal Conductivity by Lee’s Method | ENGINEERING PHYSICS

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Thermal Conductivity by Lee’s Method | ENGINEERING PHYSICS LAB Lab 3: Thermal Conductivity by Lee’s Method Document Information Experiment: To determine the coefficient of thermal conductivity of a bad conductor by Lee’s method Course Code: SH 151 – ENGINEERING PHYSICS LAB Description: Complete lab report including theoretical background, experimental setup, detailed procedure, observations, calculations, results,

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Lab 2 Torsional Pendulum | ENGINEERING PHYSICS

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Torsional Pendulum Lab Report | ENGINEERING PHYSICS SH151 Lab Report 2: Torsional Pendulum Document Information Experiment: To determine the modulus of elasticity of the given material and moment of inertia of the circular disc Course Code: SH 151 – ENGINEERING PHYSICS Description: Complete lab report covering theory, apparatus, procedure, observations, calculations, results and viva questions

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Lab 1 Bar Pendulum| ENGINEERING PHYSICS

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Bar Pendulum Experiment | ENGINEERING PHYSICS LAB Bar Pendulum Experiment Lab Report Information Experiment: To determine the acceleration due to gravity and radius of gyration of the given metal bar using bar pendulum Course Code: SH 151 – ENGINEERING PHYSICS LAB Description: Complete lab report including theory, apparatus, procedure, observations, calculations, results, and precautions for

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Numerical Collection | ENGINEERING PHYSICS

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Physics Numericals | ENGINEERING PHYSICS Physics Numericals Collection Document Information Topics Covered: Oscillations, Geometric Optics, Capacitors Course Code: SH 151 – ENGINEERING PHYSICS Description: Comprehensive collection of solved numerical problems with detailed explanations and step-by-step solutions Prepared by: Important Notes & Niraj Regmi Oscillation Numericals Simple Harmonic Motion problems Spring-mass system calculations Pendulum problems Damped

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Chapter 8 Photon and matter waves | ENGINEERING PHYSICS

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Photon and Matter Waves | ENGINEERING PHYSICS 8 Photon and Matter Waves (6 hours) Document Information Chapter: 8. Photon and Matter Waves (6 hours) Marks Distribution: 6 Course Code: SH 152 – ENGINEERING PHYSICS Description: Comprehensive notes covering Quantum Physics, de-Broglie wavelength, Heisenberg principle, and Schrodinger equation with diagrams and examples Prepared by: BRT Sir,

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Chapter 7 Electromagnetic waves | ENGINEERING PHYSICS

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Electromagnetic Waves | ENGINEERING PHYSICS 7 Electromagnetic Waves (6 hours) Document Information Chapter: 7. Electromagnetic Waves (6 hours) Marks Distribution: 6 Course Code: SH 152 – ENGINEERING PHYSICS Description: Comprehensive notes covering Maxwell’s Equations, Wave Equations, and Poynting Vector with derivations and examples Prepared by: BRT Sir, Pulchowk Campus Complete PDF Notes 7.1 Maxwell’s Equations

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Chapter 6 Electromagnetism | ENGINEERING PHYSICS

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Electromagnetism | ENGINEERING PHYSICS 6 Electromagnetism (6 hours) Document Information Chapter: 6. Electromagnetism (6 hours) Marks Distribution: 5 Course Code: SH 152 – ENGINEERING PHYSICS Description: Comprehensive notes covering Electromagnetic Induction, Faraday’s Laws, Eddy Currents and Applications with diagrams and examples Prepared by: BRT Sir, Pulchowk Campus Complete PDF Notes 6.1 Electromagnetic induction 6.1.1 Faraday’s

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Chapter 5 Electrostatics | ENGINEERING PHYSICS

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Electrostatics | ENGINEERING PHYSICS 5 Electrostatics (8 hours) Document Information Chapter: 5. Electrostatics (8 hours) Marks Distribution:9 Course Code: SH 152 – ENGINEERING PHYSICS Description: Comprehensive notes covering Electric Fields, Potentials, and Capacitors with diagrams and examples Prepared by: BRT Sir, Pulchowk Campus Electric Field and Potential (PDF Notes) 5.1 Electric Field 5.1.1 Electric field

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