Physics Archives - Student Notes

Applied Physics Cheat Sheet: Mechanics and Thermal Physics

Posted by admin on Mar 18, 2026 in Physics | 0 comments

Applied Physics Cheat Sheet (Ch. 7–17)

Side A — Mechanics

Work

Work: The product of force and displacement in the direction of the force.

Important ideas:

No displacement → no work
Force perpendicular to motion → no work

Formula: W = Fd

Units: Joules (J)

Power

Power: The rate at which work is done or energy is transferred.

Formula: P = W / t

Units: Watts (W)

Energy

Energy: The ability to do work.

Energy can change forms, but total energy remains constant (Conservation of Energy).

Forms include:

Kinetic
Potential
Thermal
Chemical
Nuclear

Potential

Fundamental Physics Concepts: Semiconductors and Optics

Posted by admin on Mar 14, 2026 in Physics | 0 comments

PN Junction: Diffusion, Drift, and Barrier Potential

1. Diffusion Current: Due to the concentration gradient, majority carriers move across the junction (holes from the p-side to the n-side and electrons from the n-side to the p-side). This motion constitutes the diffusion current.

2. Drift Current: The electric field in the depletion region causes minority carriers to move across the junction (holes from the n-side to the p-side and electrons from the p-side to the n-side). This is called drift current.

Essential Concepts in Alternating Current and Wave Optics

Posted by admin on Mar 9, 2026 in Physics | 0 comments

Alternating Current (AC)

AC (L-7): The current which changes continuously with time and reverses its direction periodically is called AC. The instantaneous AC is given by I = I₀ sin ωt.

DC: The current which is unidirectional (constant) is called DC.

RMS of AC over a complete cycle: It is defined as the square root of the mean of the square value of AC over a complete cycle. i.e., I_rms = I₀ / √2 = 0.707 I₀.

Impedance: The combined opposition offered by reactance and resistance to the flow of alternating

Classical and Quantum Free Electron Theory Principles

Posted by admin on Mar 4, 2026 in Physics | 0 comments

1. Classical Free Electron Theory and Assumptions

The classical free electron theory explains the electrical behavior of metals by assuming that a metal consists of a lattice of positive ions surrounded by a gas of free electrons. These electrons move freely inside the metal and obey classical Newtonian mechanics. Electron–electron interactions are neglected, and collisions occur only with fixed ions. The electrons follow Maxwell–Boltzmann statistics, and an applied electric field causes a net

Principles of Light Reflection and Refraction

Posted by admin on Mar 2, 2026 in Physics | 0 comments

Image Formation by Mirrors and Lenses

1. If reflected or refracted rays never meet, the image is virtual because the rays only appear to meet when extended backward. This occurs in plane and convex mirrors, in diverging lenses, or in converging lenses when the object is inside the focal point (F).

Refraction Fundamentals

2a. Refraction is the bending of light as it changes speed moving between media.

2b. Rules for Bending Light:

(1) Low $\to$ high density = toward the normal.
(2) High $\to$ low density

Semiconductor Devices Principles: PN Diode, LED, Solar Cell, APD