Engineering Physics

Simple & clean notes of engineering physics.

Unit 1. Quantum Physics

1. Newton's Laws

2. Friction

3. Kinetic and Work-Energy Theorem

4. Conservation of Energy

5. Phase velocity and Group Velocity

6. Uncertainty Principle and Schrodinger Equation

Unit 2. Wave Optics

1. Fresnel's biprism

2. Interference in Thin Films

3. Newton's rings

4. Michelson's interferometer experiments

5. Single slit and Multiple slit diffraction

6. Resolving power of prism

7. Polarization

8. Brewster's Law

9. Double refraction

10. Nicol Prism

11. Quarter & Half wave plate

Unit 3. Nuclear Physics

1. The liquid drop model

2. Nucleus Shell Model

3. Linear Accelerators

4. Geiger-Muller Counter

5. Motion of charged particles in crossed electric

6. Motion of charged particles in magnetic fields

Unit 4. Solid State Physics

1. Kronig Penny model

2. Effective Mass

3. The Fermi Dirac Distribution

4. Intrinsic and Extrinsic Semiconductors

5. Zener Diode

6. Tunnel Diode

7. Photodiode

8. Solar Cell

9. Hall Effect

10. The Meissner effect

11. Type I and Type II superconductors

Unit .5 Laser and Fiber Optics

1. Stimulated and spontaneous processes

2. Einstein coefficients

3. Active Medium and Transition Probabilities and Fermi's Golden Rule

4. Population Inversion and Laser Pumping

5. Characteristics of Lasers and OPTICAL RESONATORS

6. Coherence,

7. Principles and working of Ruby

8. Helium-neon laser and CO2 laser

9. Fundamentals of Optical Fibers Active Edit

10. Light Propagation

</div> <div jsname="WJz9Hc" style="display:none">Simple & clean noten van toegepaste natuurkunde.

Unit 1. Quantum Physics

1. Wetten van Newton

2. Wrijving

3. Kinetic en Work-Energy Stelling

4. Behoud van Energie

5. fasesnelheid en groepssnelheid

6. Onzekerheid Principe en Schrödingervergelijking

Unit 2. Wave Optics

1. biprism Fresnel's

2. Storing in Thin Films

3. Newton's ringen

4. Michelson interferometer experimenten

5. Single spleet en Multiple split diffractie

6. oplossend vermogen van prisma

7. Polarisatie

8. Wet Brewster's

9. Dubbele breking

10. Nicol Prism

11. Quarter & Half golfplaat

Unit 3. Nuclear Physics

1. De vloeistof druppel model

2. Nucleus Shell Model

3. lineaire versnellers

4. Geiger-Muller Counter

5. Beweging van geladen deeltjes in gekruiste electrische

6. Beweging van geladen deeltjes in magneetvelden

Unit 4. Solid State Physics

1. Kronig Penny model

2. effectieve massa

3. De Fermi Dirac Distribution

4. intrinsieke en extrinsieke halfgeleiders

5. Zener Diode

6. Tunnel Diode

7. fotodiode

8. Zonnecel

9. Hall Effect

10. Het effect Meissner

11. Type I en Type II supergeleiders

Unit 0,5 Laser en Fiber Optics

1. gestimuleerde en spontane processen

2. Einstein coëfficiënten

3. Active Medium en overgangskansen en Golden Rule Fermi's

4. Bevolking Inversion en Laser Pumping

5. Kenmerken van lasers en optische resonatoren

6. Coherence,

7. Principes en werking van Ruby

8. Helium-neon laser en de CO2-laser

9. Fundamentals optische vezels Active Bewerken

10. Light Voortplanting</div> <div class="show-more-end">