Index

A

Absolute pressure 

Absolute Zero

Acceleration

Activator

Absorbed dose of radiation

Acceleration due to gravity (g)

Accelerator

Adhesion

Ampere

Amplitude

Angular acceleration

Anti-node

Angular momentum

Anelasticity

Active devices

Activity

Archimedes principle

Atmospheric pressure

Atom

Acoustics

Alpha particle

Adiabatic process

Angle of minimum Deviation

Astronomy

Amplitude

Atomic number

Allotropy

Annealing

Avogadros principle

Abberation of star light

Absorbing power

Angular displacement

Anomalous dielectric dispersion

Albedo

Axis of Precession

Alpha particle spectrum

Aufbaus principle

Anomalous Zeeman Effect

Anti-stokeslines

B

Barns

Boyles law

Buoyancy

Black body

Bernoullis principle

Brownian motion

Bose Einstein Condensation

Bulk Stress

Balmer series

Binding energy

Brackett series

Boiling point

Barometer

Beats

Bremstrahlung

Beta particle

Black body

Bolometer

Brewster’s angle of incidence

Brewster’s law

Binding energy

Bel

Boron-10

Baking

Brazing

Bonding energy

Body centered cubic

Burgers vector 

 

C

 

Centripetal force

Centrifugal force

Critical mass

Centre of gravity

Cohesion

Charles law

Critical temperature

Critical pressure

Critical volume

Compton Effect

Collision

Conical pendulum

Coefficient of Linear expansion 

Coefficient of areal expansion

Coefficient of volume expansion

Canonical Ensemble

Configuration space

Causality Law

Critical magnetic field

Coherence length

Centripetal acceleration

Constrained motion of a rotatingbody

Cathodic sputtering

Clipping circuit

Clausius statement of second law ofthermodynamics

Crystal

Celsius

Crossection

Closed system

Conservative forces

Conservation of momentum

Conduction

Convection

Covalent bond

Curie

Choke coil

Center of mass

Conservation of angular momentum

Critical angle

Canonical ensemble

Constancy of speed of light

Coulombs law

Capacitance

Cohesion

Cobalt-60

Cold welding

Crystalline defect

Ceramic

Cermet

Curie temperature

Clausius Theorem 

D

Dielectric Constant

Displacement

Dielectric strength

Debroglies Hypothesis

Debroglie wavelength

Drift velocity

Dulong & Petit’s law

Dispersion of light

Dispersive power

Direct band gap semiconductor

Davisson – Germer experiment

Debye

Degrees of freedom

Distance

Dilute Magnetic Semiconductor

Dispersive power of grating

Derived Air Concentration

Dose equivalent 

Dew point

Damped vibration

Deewar flask

Displacement current

Displacement

Dulong & Petit’s law

Ductility

Devitrification

 E

Effective mass of electron

Electron Volt

Elastic collision

Electric current

Electromotive force

Entropy

Eddy current

Equilibrium of a rigid body

Elasticity

Efficiency of engine

Emissivity

Escape velocity

Elastic fatigue

Equation of continuity

Ensemble

Electron gun

Equal Apriori probability

Ergodic hypothesis

Electromagnetic interactions

Elastic Deformation

Equation of motion of rigid body

Exposure

Elastic deformation

External work

F

Friction

Forced vibration

Fictious force (Pseudo force)

Focaults Pendulum

Fermions

Fermi Level

Forward biased diode

Feedback

Franck & Hertz experiment

Fraunhofer lines

Fluid

Face centered cubic crystal structure

Fluidpressure

Franck-Condon principle

G

Gravitational potential

Geo-stationary satellite

Grand Canonical Ensemble

Gauss’s theorem of magnetism

Gauss’s theorem of electrostatics

Gauge pressure

Gamma rays

Gravitational force

Gravitational Intensity

Gray

Grain boundary

Gas

Gravitational force

Geocentric theory

Gravitational potential

Geo-stationary satellite

Gravitational mass

Grand canonical ensemble

Gyroscope

Gyration

Gauge pressure

Geiger-Nuttal law

H

Hall Effect

Hologram

Heat

Heat engine

Heliocentric theory

Hamilton’s principle

Humphrey series

Hologram

Heat capacity

Hoppers

Hydrogen bond

Hexagonal closely packed crystalstructure

Hooke’s law

Hardness

Hole

 

I

Identical particles

Ionizing Radiation

Indirectband semiconductor

Isobars

Isotope

Isotones

Isomers

Interference of light

Irreversible change

Intensity of radiation

Impulse

Inelastic collision

Inertial frame

Inertial mass

Ideal fluid

Invariant tensor

Ionic bonding

Interfacial defect

Impurity diffusion

 

 J

Joules expansion

Joules law (gases)

 

K

Kilogram

Kirchhoff’s first Law

Kirchhoff’s second Law

Kelvin’s Thermodynamic Scale

Kirchoff’s law (thermal radiation)

Kilowatt hour (KWH)

Kepler’s first law

Kepler’s second law

Kepler’s third law

Kelvin’s statement of second law ofthermodynamics

Kilo Calorie

 

L

Luminescence

Longitudinal wave motion

LINEAC(Linear Accelerator)

Latent heat (Heat of transformation)

Lienard Wiechart Potential

Lorentz-Fitzerald contraction

Larmor’s precession

Laws of refraction 

Lissajous figures

Lattice parameters

LASER

Law of Conservation of energy

Law of static friction

Law of kinetic friction

Law of Conservation of angular momentum

Longitudinal Stress

Longitudinal strain

London penetration depth

Lyman series

Long range alpha particles

Latent heat

 

M

Mean free path 

Moderation 

Miller Indices

Magnetic susceptibility

Mechanical Equilibrium

Mechanical Equivalent of heat

Microscope

Moment of Inertia

Micro canonical ensemble

Mutual Induction

Milliman’s Theorem

Mass defect

Molecular spectrum

Mirror Nuclei

Meissner effect

Mass number

Molecular range

Mobility

Molar specific heat 

Moseley’s Law for X-rays

Manometer

Mean free path

Modulus of resilience

Molecular weight

Magnetization

Martensite

Mole

  

 


 

N

Newton’s first law

Newton’s second law

Newton’s third law

Non-conservative force

Non-polar dielecric

Newton’s universal law of gravitation

Nano materials

Normal force

Nucleon

Neutrino

Node

N-type semiconductor

Newton’s law of cooling

Non-Inertial frames of reference

Norton’s theorem

Negative feedback

Non-ferrous alloy

Norton’s theorem

Nutation

O

Oscillation

Ohmic conductor

Orbital velocity

Outgassing

Outgassing constant

Oxidation

Oscillator (electric)

Ohm

Open system

Optics

P

Pyrometer

Proton

Positron

Principle of Calorimetry

Photo conductor

Poynting’s theorem

Poynting vector

Polarization (EM wave)

Polarisation

Parking orbit

Principle of equivalence

Prism

Photo detector

Penetration depth

Polymorphism

Phase (SHM)

Plastic deformation

Pickling

Progressive wave motion

Pair production

Para-magnetism

Pascal’s principle

Principle of Calorimeter

Photon

Photo Conductor

Polarization

Poynting’s Theorem

Poynting’s Vector

Pyrometer

Periodic table

Poly-crystal

Phase

Polarization (ionic)

Powder metallurgy

Precipitation hardening

P- type semiconductor

Polar molecule

Pressure law

Prevost’s theory of heat exchange

Principle of equal aprioriprobabiltiy

Perpendicular Axes Theorem

Parallel Axes Theorem

Parking orbit

Periodic motion

Phase constant

Plasticity

Principle of invariance of charge

Photoelectric effect

Pair production

Phase point

Phase space

Pseudo Vector

Q

Quality Factor (radiation)

Quantum numbers

R

Refractive index

Refrigerant

Reversible cell

Radiant Energy

Radiation Exposure

Radiation Absorbed Dose

Refrigerant

Reversible cell

Relative Humidity

Roentgen Equivalent Man (REM)

Roentgen

RAD (Radiation Absorbed Dose)

Real Image

Rainbow

Rest mass

Rayleigh scattering

Rutherford

Resonant frequency (electricity)

Roughing Pump

Resilience

Reduction

Residual stress

Refrigerator

Reversible change

Radiant energy (heat)

Radiator (thermal)

Relative emittance

Reflecting power

Rolling friction

Rotatory motion

Radius vector

Restoring force

Resonance absorption (Dielectric)

Reduction

Reverberation

Reciprocity theorem

Rigid body

Radius of gyration

Reactive sputtering

Rigid body

S

Saturation Vapor pressure

Sievert

Seebeck effect

Specific gravity of fluid

Skin effect

Snell’s law

Spectrum

Sputtering

Straggling

Superconductor

Specific heat

Specific heat at constant volume

Specific heat at constant pressure

Stefan’s Boltzmann law

Saturation vapor pressure

Sievert

Schottky defect

Skin depth

Skin effect

Sputtering

Simple Harmonic Motion

Specific Heat

Stefan’s-Boltzmann law

Sphere of influence

Surface energy

Simple pendulum

Soldering

Single Crystal

Secondary bonds

Self diffusion

Shear

Softening point (glass)

Soft magnetic material

Solubility limit

Specific strength

Steady state diffusion

Strain (engineering)

Structure

Super cooling

Super heating

Spectral emissive power

Spectral energy density

Stefan’s law

Stefan– Boltzmann’s law

Solar constant

Satellite

Shearing strain

Strain energy

Statistical Mechanics

Self induction

Strange particles

Silsbee effect

T

Temperature

Tephigram

Thermodynamics

Thermodynamics Ist law

Thermodynamics IInd Law

Thermodynamics IIIrd law

Thermal Neutron

Thermometer

Thermal equilibrium

Thermalization of Neutrons

Thermionic Emission

Transformer

Total internal reflection

Thin film

Type-I superconductor

Type-II superconductor

Transverse wave motion

Twin boundaries

Toughness

Thermoplastic

Translatory motion

Tensor analysis

Translational motion

Thermal Radiation (Thermodynamics)

U

Universal gravitational constant

Ultra thin films

Unit cell

V

Vacuum

VVER

Vapour degreasing

Vacuum pressure

Vitrification

Vapor

Vector

Volume strain

Viscosity

Vacuum pressure

Vibrational-rotational spectrum

Visible spectrum

W

Work

Work-energy theorem

Weidmann-Franz law

Welding

Wien’s Displacement law

Wave

Wave length

X

Y

Yielding

Yield Point

Z

Zone plate

Zeroeth Law of Thermodynamics