Physics

Overview

The scientific study of the fundamental structure of matter, energy, and their interactions.

Projects

Elementary

1. AC circuits.
2. Accelerated reference frames.
3. Acceleration.
4. Adiabatic processes.
5. Air resistance.
6. Angular momentum.
7. Angular motion.
8. Archimedes' principle.
9. Atmospheric electricity.
10. Atomic nucleus.
11. Atomic physics.
12. Atomic spectra.
13. Atomic structure.
14. Atoms.
15. Beat.
16. Bernoulli's equation.
17. Bouyancy.
18. Brownian motion.
19. Calorimetry.
20. Capacitance.
21. Carnot cycle.
22. Cavity resonators.
23. Center of mass.
24. Chemical electromotive force.
25. Chemical kinetics.
26. Clausius-Clapeyron equation.
27. Collisions.
28. Condensed matter.
29. Conservative fields.
30. Conservation of energy.
31. Conservation of momentum.
32. Conservation principles.
33. Coulomb's law.
34. Curved space.
35. Damped harmonic motion.
36. DC circuits.
37. Dielectrics.
38. Diffraction.
39. Diffusion.
40. Dispersion of light.
41. Displacement.
42. Distribution of molecular velocities.
43. Driven harmonic motion.
44. Drude model of metals.
45. Dynamics.
46. Einstein's laws of radiation.
47. Elastic materials.
48. Elasticity.
49. Electric charges.
50. Electric current.
51. Electric fields.
52. Electric potential.
53. Electrical generators.
54. Electrical power.
55. Electrodynamics in relativistic notation.
56. Electrolysis.
57. Electromagnetic mass.
58. Electromagnetic radiation.
59. Electromagnetic waves.
60. Electronics.
61. Electrons.
62. Electrons in atoms.
63. Electrons in solids.
64. Entropy.
65. Equations of state.
66. Equilibrium of a rigid body under coplanar forces
67. Equilibrium under the action of concurrent forces.
68. Equipartition of energy.
69. Equipotential surfaces.
70. Evaporation.
71. Faraday's law.
72. Ferromagnetism.
73. Field energy.
74. Field momentum.
75. First law of thermodynamics.
76. Forces.
77. Free fall.
78. Friction.
79. Gas laws.
80. Gases.
81. Geometry of crystals.
82. Gravitation.
83. Gyrodynamics.
84. Harmonics.
85. Heat capacity.
86. Heat engines.
87. Heat transfer.
88. Heisenberg uncertainty principle.
89. Helmholtz and Gibbs functions.
90. Hydrodynamics.
91. Hydrogen atom.
92. Hydrostatics.
93. Ideal gases.
94. Illumination.
95. Impulse.
96. Index of refraction.
97. Induced electromagnetism.
98. Inductance.
99. Inertia.
100. Insulators.
101. Interference.
102. Intermolecular forces.
103. Internal energy.
104. Invariance of physical laws.
105. Inverse-square law fields.
106. Kepler's laws.
107. Kepler's problems.
108. Kinematics.
109. Kinetic energy.
110. Kinetic theory.
111. Kirchhoff's laws.
112. Latent heat.
113. Lenses.
114. Light.
115. Light scattering.
116. Lorentz transformations of the field.
117. Low temperature physics.
118. Magnetic fields.
119. Magnetic fields in material media.
120. Magnetic flux.
121. Magnetic forces on currents.
122. Magnetic materials.
123. Magnetic poles.
124. Magnetic properties of matter.
125. Magnetic resonance.
126. Many-body interactions.
127. Maxwell distribution.
128. Maxwell's equations.
129. Modes.
130. Molecules.
131. Moment of inertia.
132. Momentum.
133. Motion in polar coordinates.
134. Motion of charges in fields.
135. Motion under constant acceleration.
136. Motion under the influence of forces.
137. Motors.
138. Newton's laws.
139. Nuclear physics.
140. Nuclei.
141. Ohm's law.
142. Optical instruments.
143. Paramagnetism.
144. Particle physics.
145. Periodic table.
146. Phase changes.
147. Photometry.
148. Photons.
149. Planar motion.
150. Polarization.
151. Polyatomic molecules.
152. Position vector.
153. Potential energy.
154. Power.
155. Pressure.
156. Principle of least action.
157. Principle of least time.
158. Projectile motion.
159. Propagation of light.
160. Quantum physics.
161. Quantum statistics.
162. Radiation damping.
163. Radiant energy.
164. Radioactivity.
165. RC time constants.
166. Reflection.
167. Reflection from surfaces.
168. Refraction.
169. Relative motion.
170. Relativistic effects in radiation.
171. Relativistic energy and momentum.
172. Relativistic kinematics.
173. Resistance.
174. Resonance.
175. Rigid body dynamics.
176. Rigid body rotation.
177. Rigid body statics.
178. RL time constants.
179. Second law of thermodynamics.
180. Simple harmonic motion.
181. Simple machines.
182. Solutions of Maxwell's equations in free space.
183. Solutions of Maxwell's equations with currents and charges.
184. Sound.
185. Sound production.
186. Sound reception.
187. Sources of the magnetic field.
188. Spacetime.
189. Spatial motion.
190. Specific heat.
191. Standing waves.
192. Statics.
193. Statistical mechanics.
194. Steady-state solutions for simple AC circuits.
195. Superconductivity.
196. Symmetry.
197. Systems of interacting particles.
198. Temperature.
199. Thermal electromotive force.
200. Thermal equilibrium.
201. Thermal expansion.
202. Thermal ionization.
203. Thermodynamic processes.
204. Thin lenses.
205. Time.
206. Time-response of electric circuits.
207. Torque.
208. Transients.
209. Uniformly accelerated motion.
210. Uniform circular motion.
211. Uniform fields.
212. Vapors.
213. Vector potential.
214. Velocity.
215. Viscosity.
216. Wave equation.
217. Wave mechanics.
218. Wave motion.
219. Wave-particle duality.
220. Waveguides.
221. Waves in one dimension.
222. Weight.
223. Work.
224. Work-energy theorem.
225. X-rays.
226. Zeroth law of thermodynamics.

Intermediate

1. Abberations
2. Acoustics
3. Alpha Decay
4. Amplifiers
5. Approximation Methods in Quantum Mechanics
6. Atmospheric Physics
7. Atomic Models
8. Band Theory
9. Bernoulli's Equation
10. Bipolar Transistor Circuits
11. Charged Particles in Electric and Magnetic Fields
12. Decay Processes
13. Deformations
14. Digital Counters
15. Digital Displays
16. Digital Latches
17. Elastic Stability
18. Electrical Properties of Solids
19. Electromagnetic Waves
20. Energy Bands
21. Field Effect Transistor Circuits
22. Gates
23. Gravitational Fields
24. Heat Flux
25. Hydrogen Atom
26. Identical Particles
27. Interacting Fields
28. Internal Energy
29. Irrotational Motions
30. Lagrangian Mechanics
31. Laplace's Equation
32. Lasers
33. Magnetic Materials
34. Magnetic Properties of Solids
35. Magnetic Resonances
36. Many-Body Problems in Quantum Mechanics
37. Matrix Methods in Optics
38. Maxwell's Equations
39. Mechanical Properties of Solids
40. Molecular Structure
41. N-Body Problems
42. Noninertial Frames
43. Nuclear Physics
44. Op Amps
45. Particle Kinematics
46. Particle Motions in Force Fields
47. Particle Physics
48. Poisson's Equation
49. Postulates of Quantum Mechanics
50. Quantum Mechanics in One Dimension
51. Quantum Mechanics in Three Dimensions
52. Reference Frames
53. Rigid Body Equations of Motion
54. Rigid Body Kinematics
55. Rigid Motions
56. Schrödinger Equation
57. Semiconductor Diode Circuits
58. Semiconductors
59. Solid State Physics
60. Special Relativity
61. Spin
62. Stresses
63. Stretches
64. Thermodynamics of Bodies
65. Trajectories with Nonlinear Forces
66. Two-Body Dynamics
67. Variational Principles of Mechanics
68. Vector Potential
69. Vibrations
70. Wave Mechanics
71. Wave Propagation
72. Work Function

Advanced

1. Acoustical Holography
2. Amorphous Solids
3. Anisotropies
4. Annihilation
5. Antiferromagnetism
6. Atomic Structure
7. Band Structure
8. Beta Decay
9. Biomechanics
10. Biophysics
11. Black Holes
12. Bose-Einstein Statistics
13. Buoyancy-Driven Flows
14. Canonical Transformations
15. Coercivity
16. Coherence
17. Cohesion
18. Compressible Flow
19. Condensed Matter Physics
20. Constitutive Relations
21. Cosmology
22. Covariant Formulation of Electromagnetism
23. Crystal Diffraction
24. Crystal Structure
25. Density Functional Methods
26. Diffraction
27. Dirac Equation
28. Dislocations
29. Disordered Materials
30. Domain Walls
31. Elasticity
32. Electromagnetic Fields of Moving Charges
33. Electromagnetic Radiation
34. Electromagnetic Wave Propagation
35. Electron Spin Resonance
36. Electronic Properties of Solids
37. Electroweak Theory
38. Ensembles
39. Entropy
40. Equilibrium Equations
41. Fermi-Dirac Statistics
42. Fermi Surfaces
43. Ferrimagnetism
44. Ferromagnetism
45. Flip-Flops
46. Flourescence
47. Flow Past Bodies
48. Fluctuation
49. Fluid Equations of Motion
50. Fluid Stability
51. Foldy-Wouthuysen Transformation
52. Four-Wave Mixing
53. Fouier Transform Spectroscopy
54. Free-Electron Model
55. Free Fields
56. Fundamental Interactions
57. Gamma Ray Transitions
58. Gauge Invariance
59. Gauge Theory
60. General Relativity
61. Hadron Collisions
62. Hadrons
63. Hamiltonian Mechanics
64. Heat
65. Helium Atom
66. Hidden Symmetries
67. Holography
68. Hydrogen Molecular Ion
69. Hydrogen Molecule
70. Injection Lasers
71. Instantons
72. Insulators
73. IR Detectors
74. Irreversible Processes
75. Isotopic Spin
76. Laser Spectroscopy
77. Lattice Vibrations
78. Leptons
79. Linear Systems Theory
80. Liquids
81. Lorentz Covariance
82. Magnetic Properties of Solids
83. Magnetostriction
84. Metals
85. Microbial Mechanics
86. Molecular Physics
87. Motion at High Reynolds Numbers
88. Multiresonance Spectroscopy
89. Muon Detection
90. Non-Abelian Gauge Theories
91. Nonlinear Optics
92. Nuclear Decay
93. Nuclear Magnetic Resonance
94. Nuclear Models
95. Nuclear Properties
96. Nuclear Reactions
97. Nuclear Structure
98. Nuclidic Masses
99. Optical Filtering
100. Optical Properties of Solids
101. Paramagnetism
102. Particle Physics
103. Partition Function
104. Periodic Potentials
105. Perturbation Methods
106. Phase Equilibrium
107. Phase Space for Nonlinear Systems
108. Phase Transitions
109. Phonons
110. Phosphorescence
111. Photoconductivity
112. Point Defects
113. Potential Flow
114. Propagator Theory
115. Quantum Chaos
116. Quantum Electrodynamics
117. Quantum Information
118. Quantum Jumps
119. Quantum Magnets
120. Quantum Optics
121. Quantum Statistics of Ideal Gases
122. Quantum Statistics of Solids
123. Quantum Transport
124. Quark Model
125. Quarks
126. Raman Spectroscopy
127. Reflection
128. Refraction
129. Reversal Mechanisms
130. Rotating Flows
131. S-Matrix
132. Scattering Theory
133. Shock Waves
134. Solitons
135. Sonoluminescence
136. Spontaneous Symmtery Breaking
137. Spin Tensor Fields
138. Stable Nuclei
139. Statistical Mechanics
140. Strain Velocity Fields
141. Stressed Elastic Solids
142. Strong Interaction
143. Superconductivity
144. Superconductors
145. Superparamagnetism
146. Surface Gravity Waves
147. Surface Science
148. Symmetry Principles
149. Temperature
150. The Isotropic Navier-Stokes Fluid
151. The Isotropic Thermoelastic Solid
152. The Standard Model
153. Thermal Properties of Solids
154. Thermoelectric Cooling
155. Transfer Functions
156. Transport Properties of Solids
157. Transport Theory
158. Tunneling
159. Turbulence
160. Ultrasonics
161. Viscous Boundary Layers
162. Vortex Dynamics
163. Vorticity and Circulation
164. Yang-Mills Theory
165. Yukawa Forces

Frontier

1. Black Hole Dynamics
2. Black Hole Simulations
3. Black Hole Thermodynamics
4. Bose-Einstein Condensation
5. Cold Atoms
6. Conformal Field Theory
7. Constructive Quantum Field Theory
8. Correlated Electronic Systems
9. Cosmic Microwave Background
10. Cosmological Tests
11. Dark Energy
12. Dark Matter
13. Disordered Systems
14. Dissipative Quantum Mechanics
15. Effective Field Theories
16. F Theory
17. Feynman Diagrams
18. Feynman Rules
19. Flavor Puzzle
20. Gauge Hierarchy Problem
21. Heavy Flavors
22. Higgs Boson
23. High Temperature Superconductors
24. Holographic Renormalization
25. Inflationary Cosmology
26. Interactions of Light with Trapped Ions
27. Large Scale Structure Formation
28. M Theory
29. Mesoscopic Systems
30. Neutrino Oscillations
31. Noncommutative Dynamics
32. Photon Splitting
33. Physics of Extra Dimensions
34. Preons
35. Quantization of Space
36. Quantum Field Theory
37. Quantum Gravity
38. Quantum Many-Body Theory
39. Quantum Theory of Black Holes
40. Quantum Theory of Fracture in Materials
41. Quark Confinement
42. Quasicrystals
43. Quaternionic Quantum Mechanics
44. Resonant Transport of Particles
45. Spin Glasses
46. String Cosmology
47. String Theory
48. Strong CP Problem
49. Strong Interaction Symmetries
50. Supersymmetry
51. Trapped Wave Packets
52. Trapping Neutral Particles
53. Wormholes

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