Physics Projects

by Admin on February 3, 2012

Physics is a branch of natural science that studies about matter and its movements through space time, with its related theories like force and energy. More elaborately, it is the common study of nature, performed to know how the Universe acts.

It is one of the oldest branches of natural science, in fact the oldest including its branch astronomy. Physics has been part of many other interdisciplinary fields of research, like quantum chemistry and biophysics, and limitations of physics are not firmly defined. New concepts in physics frequently explain the basic mechanisms of other natural sciences, while offering opportunities of research in fields like philosophy and mathematics.

Following are some projects in Physics

Elementary Level

  • Zeroth law of thermodynamics.
  • X-rays.
  • Work-energy theorem.
  • Work.
  • Weight.
  • Waves in one dimension.
  • Wave-particle duality.
  • Waveguides.
  • Wave motion.
  • Wave mechanics.
  • Wave equation.
  • Viscosity.
  • Velocity.
  • Vector potential.
  • Vapors.
  • Uniformly accelerated motion.
  • Uniform fields.
  • Uniform circular motion.
  • Transients.
  • Torque.
  • Time-response of electric circuits.
  • Time.
  • Thin lenses.
  • Thermodynamic processes.
  • Thermal ionization.
  • Thermal expansion.
  • Thermal equilibrium.
  • Thermal electromotive force.
  • Temperature.
  • Systems of interacting particles.
  • Symmetry.
  • Superconductivity.
  • Steady-state solutions for simple AC circuits.
  • Statistical mechanics.
  • Statics.
  • Standing waves.
  • Specific heat.
  • Spatial motion.
  • Spacetime.
  • Sources of the magnetic field.
  • Sound.
  • Sound reception.
  • Sound production.
  • Solutions of Maxwell’s equations with currents and charges.
  • Solutions of Maxwell’s equations in free space.
  • Simple machines.
  • Simple harmonic motion.
  • Second law of thermodynamics.
  • RL time constants.
  • Rigid body statics.
  • Rigid body rotation.
  • Rigid body dynamics.
  • Resonance.
  • Resistance.
  • Relativistic kinematics.
  • Relativistic energy and momentum.
  • Relativistic effects in radiation.
  • Relative motion.
  • Refraction.
  • Reflection.
  • Reflection from surfaces.
  • RC time constants.
  • Radioactivity.
  • Radiation damping.
  • Radiant energy.
  • Quantum statistics.
  • Quantum physics.
  • Propagation of light.
  • Projectile motion.
  • Principle of least time.
  • Principle of least action.
  • Pressure.
  • Power.
  • Potential energy.
  • Position vector.
  • Polyatomic molecules.
  • Polarization.
  • Planar motion.
  • Photons.
  • Photometry.
  • Phase changes.
  • Periodic table.
  • Particle physics.
  • Paramagnetism.
  • Optical instruments.
  • Ohm’s law.
  • Nuclei.
  • Nuclear physics.
  • Newton’s laws.
  • Motors.
  • Motion under the influence of forces.
  • Motion under constant acceleration.
  • Motion of charges in fields.
  • Motion in polar coordinates.
  • Momentum.
  • Moment of inertia.
  • Molecules.
  • Modes.
  • Maxwell’s equations.
  • Maxwell distribution.
  • Many-body interactions.
  • Magnetic resonance.
  • Magnetic properties of matter.
  • Magnetic poles.
  • Magnetic materials.
  • Magnetic forces on currents.
  • Magnetic flux.
  • Magnetic fields.
  • Magnetic fields in material media.
  • Low temperature physics.
  • Lorentz transformations of the field.
  • Light.
  • Light scattering.
  • Lenses.
  • Latent heat.
  • Kirchhoff’s laws.
  • Kinetic theory.
  • Kinetic energy.
  • Kinematics.
  • Kepler’s problems.
  • Kepler’s laws.
  • Inverse-square law fields.
  • Invariance of physical laws.
  • Internal energy.
  • Intermolecular forces.
  • Interference.
  • Insulators.
  • Inertia.
  • Inductance.
  • Induced electromagnetism.
  • Index of refraction.
  • Impulse.
  • Illumination.
  • Ideal gases.
  • Hydrostatics.
  • Hydrogen atom.
  • Hydrodynamics.
  • Helmholtz and Gibbs functions.
  • Heisenberg uncertainty principle.
  • Heat transfer.
  • Heat engines.
  • Heat capacity.
  • Harmonics.
  • Gyrodynamics.
  • Gravitation.
  • Geometry of crystals.
  • Gases.
  • Gas laws.
  • Friction.
  • Free fall.
  • Forces.
  • First law of thermodynamics.
  • Field momentum.
  • Field energy.
  • Ferromagnetism.
  • Faraday’s law.
  • Evaporation.
  • Equipotential surfaces.
  • Equipartition of energy.
  • Equilibrium under the action of concurrent forces.
  • Equilibrium of a rigid body under coplanar forces
  • Equations of state.
  • Entropy.
  • Electrons.
  • Electrons in solids.
  • Electrons in atoms.
  • Electronics.
  • Electromagnetic waves.
  • Electromagnetic radiation.
  • Electromagnetic mass.
  • Electrolysis.
  • Electrodynamics in relativistic notation.
  • Electrical power.
  • Electrical generators.
  • Electric potential.
  • Electric fields.
  • Electric current.
  • Electric charges.
  • Elasticity.
  • Elastic materials.
  • Einstein’s laws of radiation.
  • Dynamics.
  • Drude model of metals.
  • Driven harmonic motion.
  • Distribution of molecular velocities.
  • Displacement.
  • Dispersion of light.
  • Diffusion.
  • Diffraction.
  • Dielectrics.
  • DC circuits.
  • Damped harmonic motion.
  • Curved space.
  • Coulomb’s law.
  • Conservative fields.
  • Conservation principles.
  • Conservation of momentum.
  • Conservation of energy.
  • Condensed matter.
  • Collisions.
  • Clausius-Clapeyron equation.
  • Chemical kinetics.
  • Chemical electromotive force.
  • Center of mass.
  • Cavity resonators.
  • Carnot cycle.
  • Capacitance.
  • Calorimetry.
  • Brownian motion.
  • Bouyancy.
  • Bernoulli’s equation.
  • Beat.
  • Atoms.
  • Atomic structure.
  • Atomic spectra.
  • Atomic physics.
  • Atomic nucleus.
  • Atmospheric electricity.
  • Archimedes’ principle.
  • Angular motion.
  • Angular momentum.
  • Air resistance.
  • Adiabatic processes.
  • Acceleration.
  • Accelerated reference frames.
  • AC circuits.

Intermediate Level

  • Work Function
  • Wave Propagation
  • Wave Mechanics
  • Vibrations
  • Vector Potential
  • Variational Principles of Mechanics
  • Two-Body Dynamics
  • Trajectories with Nonlinear Forces
  • Thermodynamics of Bodies
  • Stretches
  • Stresses
  • Spin
  • Special Relativity
  • Solid State Physics
  • Semiconductors
  • Semiconductor Diode Circuits
  • Schrödinger Equation
  • Rigid Motions
  • Rigid Body Kinematics
  • Rigid Body Equations of Motion
  • Reference Frames
  • Quantum Mechanics in Three Dimensions
  • Quantum Mechanics in One Dimension
  • Postulates of Quantum Mechanics
  • Poisson’s Equation
  • Particle Physics
  • Particle Motions in Force Fields
  • Particle Kinematics
  • Op Amps
  • Nuclear Physics
  • Noninertial Frames
  • N-Body Problems
  • Molecular Structure
  • Mechanical Properties of Solids
  • Maxwell’s Equations
  • Matrix Methods in Optics
  • Many-Body Problems in Quantum Mechanics
  • Magnetic Resonances
  • Magnetic Properties of Solids
  • Magnetic Materials
  • Lasers
  • Laplace’s Equation
  • Lagrangian Mechanics
  • Irrotational Motions
  • Internal Energy
  • Interacting Fields
  • Identical Particles
  • Hydrogen Atom
  • Heat Flux
  • Gravitational Fields
  • Gates
  • Field Effect Transistor Circuits
  • Energy Bands
  • Electromagnetic Waves
  • Electrical Properties of Solids
  • Elastic Stability
  • Digital Latches
  • Digital Displays
  • Digital Counters
  • Deformations
  • Decay Processes
  • Charged Particles in Electric and Magnetic Fields
  • Bipolar Transistor Circuits
  • Bernoulli’s Equation
  • Band Theory
  • Atomic Models
  • Atmospheric Physics
  • Approximation Methods in Quantum Mechanics
  • Amplifiers
  • Alpha Decay
  • Acoustics
  • Abberations

Advanced Level

  • Yukawa Forces
  • Yang-Mills Theory
  • Vorticity and Circulation
  • Vortex Dynamics
  • Viscous Boundary Layers
  • Ultrasonics
  • Turbulence
  • Tunneling
  • Transport Theory
  • Transport Properties of Solids
  • Transfer Functions
  • Thermoelectric Cooling
  • Thermal Properties of Solids
  • The Standard Model
  • The Isotropic Thermoelastic Solid
  • The Isotropic Navier-Stokes Fluid
  • Temperature
  • Symmetry Principles
  • Surface Science
  • Surface Gravity Waves
  • Superparamagnetism
  • Superconductors
  • Superconductivity
  • Strong Interaction
  • Stressed Elastic Solids
  • Strain Velocity Fields
  • Statistical Mechanics
  • Stable Nuclei
  • Spontaneous Symmtery Breaking
  • Spin Tensor Fields
  • Sonoluminescence
  • Solitons
  • S-Matrix
  • Shock Waves
  • Scattering Theory
  • Rotating Flows
  • Reversal Mechanisms
  • Refraction
  • Reflection
  • Raman Spectroscopy
  • Quarks
  • Quark Model
  • Quantum Transport
  • Quantum Statistics of Solids
  • Quantum Statistics of Ideal Gases
  • Quantum Optics
  • Quantum Magnets
  • Quantum Jumps
  • Quantum Information
  • Quantum Electrodynamics
  • Quantum Chaos
  • Propagator Theory
  • Potential Flow
  • Point Defects
  • Photoconductivity
  • Phosphorescence
  • Phonons
  • Phase Transitions
  • Phase Space for Nonlinear Systems
  • Phase Equilibrium
  • Perturbation Methods
  • Periodic Potentials
  • Partition Function
  • Particle Physics
  • Paramagnetism
  • Optical Properties of Solids
  • Optical Filtering
  • Nuclidic Masses
  • Nuclear Structure
  • Nuclear Reactions
  • Nuclear Properties
  • Nuclear Models
  • Nuclear Magnetic Resonance
  • Nuclear Decay
  • Nonlinear Optics
  • Non-Abelian Gauge Theories
  • Muon Detection
  • Multiresonance Spectroscopy
  • Motion at High Reynolds Numbers
  • Molecular Physics
  • Microbial Mechanics
  • Metals
  • Magnetostriction
  • Magnetic Properties of Solids
  • Lorentz Covariance
  • Liquids
  • Linear Systems Theory
  • Leptons
  • Lattice Vibrations
  • Laser Spectroscopy
  • Isotopic Spin
  • Irreversible Processes
  • IR Detectors
  • Insulators
  • Instantons
  • Injection Lasers
  • Hydrogen Molecule
  • Hydrogen Molecular Ion
  • Holography
  • Hidden Symmetries
  • Helium Atom
  • Heat
  • Hamiltonian Mechanics
  • Hadrons
  • Hadron Collisions
  • General Relativity
  • Gauge Theory
  • Gauge Invariance
  • Gamma Ray Transitions
  • Fundamental Interactions
  • Free-Electron Model
  • Free Fields
  • Four-Wave Mixing
  • Fouier Transform Spectroscopy
  • Foldy-Wouthuysen Transformation
  • Fluid Stability
  • Fluid Equations of Motion
  • Fluctuation
  • Flow Past Bodies
  • Flourescence
  • Flip-Flops
  • Ferromagnetism
  • Ferrimagnetism
  • Fermi-Dirac Statistics
  • Fermi Surfaces
  • Equilibrium Equations
  • Entropy
  • Ensembles
  • Electroweak Theory
  • Electronic Properties of Solids
  • Electron Spin Resonance
  • Electromagnetic Wave Propagation
  • Electromagnetic Radiation
  • Electromagnetic Fields of Moving Charges
  • Elasticity
  • Domain Walls
  • Disordered Materials
  • Dislocations
  • Dirac Equation
  • Diffraction
  • Density Functional Methods
  • Crystal Structure
  • Crystal Diffraction
  • Covariant Formulation of Electromagnetism
  • Cosmology
  • Constitutive Relations
  • Condensed Matter Physics
  • Compressible Flow
  • Cohesion
  • Coherence
  • Coercivity
  • Canonical Transformations
  • Buoyancy-Driven Flows
  • Bose-Einstein Statistics
  • Black Holes
  • Biophysics
  • Biomechanics
  • Beta Decay
  • Band Structure
  • Atomic Structure
  • Antiferromagnetism
  • Annihilation
  • Anisotropies
  • Amorphous Solids
  • Acoustical Holography
  • Wormholes
  • Trapping Neutral Particles
  • Trapped Wave Packets
  • Supersymmetry
  • Strong Interaction Symmetries
  • Strong CP Problem
  • String Theory
  • String Cosmology
  • Spin Glasses
  • Resonant Transport of Particles
  • Quaternionic Quantum Mechanics
  • Quasicrystals
  • Quark Confinement
  • Quantum Theory of Fracture in Materials
  • Quantum Theory of Black Holes
  • Quantum Many-Body Theory
  • Quantum Gravity
  • Quantum Field Theory
  • Quantization of Space
  • Preons
  • Physics of Extra Dimensions
  • Photon Splitting
  • Noncommutative Dynamics
  • Neutrino Oscillations
  • Mesoscopic Systems
  • M Theory
  • Large Scale Structure Formation
  • Interactions of Light with Trapped Ions
  • Inflationary Cosmology
  • Holographic Renormalization
  • High Temperature Superconductors
  • Higgs Boson
  • Heavy Flavors
  • Gauge Hierarchy Problem
  • Flavor Puzzle
  • Feynman Rules
  • Feynman Diagrams
  • F Theory
  • Effective Field Theories
  • Dissipative Quantum Mechanics
  • Disordered Systems
  • Dark Matter
  • Dark Energy
  • Cosmological Tests
  • Cosmic Microwave Background
  • Correlated Electronic Systems
  • Constructive Quantum Field Theory
  • Conformal Field Theory
  • Cold Atoms
  • Bose-Einstein Condensation
  • Black Hole Thermodynamics
  • Black Hole Simulations
  • Black Hole Dynamics

 

Previous post:

Next post: