Pulchowk Campus Archives - Page 3 of 3

NUMERICAL METHODS | Lab 12 | Interpolation (4.c Least square method for linear, exponential and polynomial curve fitting)

Leave a Comment / Engineering, Fourth Semester / admin / June 13, 2025

Least Square Method for Curve Fitting | Numerical Methods Lab Lab 4: Least Square Method for Curve Fitting Lab 4: Least Square Method for Linear, Exponential and Polynomial Curve Fitting Experiment Information Experiment: Least Square Method for Linear, Exponential and Polynomial Curve Fitting Course Code: Numerical Methods Description: Complete lab report covering theory, algorithm, Python […]

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Strength of Materials | Chapter 7 | Theory of Flexure

Leave a Comment / Engineering, Second Semester / admin / May 28, 2025

Strength of Materials: Theory of Flexure | CE151 Strength of Materials: Theory of Flexure Topic Information Subject: STRENGTH OF MATERIALS Subject Code: CE151 Topic: Theory of Flexure (8 hours) Description: Download Theory of Flexure PDF – Complete study material covering all aspects of Theory of Flexure including Derivation,Equation and more with solved problems and examples.

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Chapter 8 Photon and matter waves | ENGINEERING PHYSICS

Leave a Comment / Engineering, Second Semester / admin / May 17, 2025

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

Leave a Comment / Engineering, Second Semester / admin / May 17, 2025

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

Leave a Comment / Engineering, Second Semester / admin / May 17, 2025

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 3 Heat and Thermodynamics | ENGINEERING PHYSICS

Leave a Comment / Engineering, Second Semester / admin / May 17, 2025

Heat and Thermodynamics | ENGINEERING PHYSICS 3 Heat and Thermodynamics (8 hours) Document Information Chapter: 3. Heat and Thermodynamics (8 hours) Marks Distribution: 7 Course Code: SH 152 – ENGINEERING PHYSICS Description: Comprehensive notes covering Quantity of Heat, Thermodynamics Laws, and Heat Transfer with diagrams and examples Prepared by: GS and BRT Sir, Pulchowk Campus

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Chapter 2 Acoustics | ENGINEERING PHYSICS

Leave a Comment / Engineering, Second Semester / admin / May 17, 2025

Acoustics | ENGINEERING PHYSICS 2 Acoustics (3 hours) Document Information Chapter: 2. Acoustics (3 hours) Marks Distribution: 4 Course Code: SH 152 – ENGINEERING PHYSICS Description: Comprehensive notes covering sound properties and ultrasound with diagrams and examples Prepared by: Important Notes Handwritten Notes 2.1 Introduction 2.1.1 Threshold of hearing and loudness 2.1.2 Reverberation and reverberation

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Chapter 1 Oscillation | ENGINEERING PHYSICS

Leave a Comment / Engineering, Second Semester / admin / May 17, 2025

Oscillation | ENGINEERING PHYSICS 1 Oscillation (6 hours) Document Information Chapter: 1. Oscillation (6 hours) Marks Distribution: 6 Course Code: SH 152 – ENGINEERING PHYSICS Description: Comprehensive notes covering Physical Pendulum and Damped/Forced Oscillation with diagrams and examples Prepared by: GS Sir, Pulchowk Campus Digital Notes (PDF) 1.1 Physical pendulum 1.1.1 Bar pendulum 1.1.2 Interchangeability

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Chapter 4 Optics | ENGINEERING PHYSICS

Leave a Comment / Engineering, Second Semester / admin / May 17, 2025

Optics | ENGINEERING PHYSICS 4 Optics (17 hours) Document Information Chapter: 4. Optics (17 hours) Marks Distribution: 17 Course Code: SH 152 – ENGINEERING PHYSICS Description: Comprehensive PDF notes covering all syllabus points with diagrams and examples Type: Handwritten notes (Digitized) Prepared by:GS Sir , Pulchowk Campus 4.1 Geometrical Optics 4.1 Geometrical optics 4.1.1 Lens

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