PHYSICS DICTIONARY

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Nano Materials

Materials whose dimensions are less than 100 nm.

Natural Frequency

 Frequency of system when set in free vibration.

Natural Logarithm

A logarithm to the base ‘e’ which is irrational and whose value is equal to 2.71829. It is represented as log _eX_.. It is also called as Napier logarithm.

Nebula

 A visible, thinly spread cloud of interstellar gas and dust. Some nebulae are remnants of supernova explosion others are gravity induced condensations of gases in interstellar medium which in certain cases may become a site for formation of new stars. The term was formerly used of any hazy , seemingly cloud like object, including what are now recognized as other galaxies beyond milky way, it is restricted now to actual clouds of gas and dust within our own galaxy.

Negative Feedback

When feedback energy is out of phase with input signal and opposite to it, then it is called negative effect.

Negatron

Term used for electron when it is necessary to distinguish between electrons and positrons.

Neptunium Series

It is a radioactive series that does not now occur in nature and that begins with Plutonium of mass number-241 and continues to Americium to the longer lived member of series i.e. Neptunium of mass number 237, and eventually to stable end product Bismuth. 

Neutrino

An elementary particle introduced by Pauli in 1952. It was introduced in weak interactions involving beta decay to avoid violation of law of conservation of energy and angular momentum. It has solved mystery of variable energy of beta particles in beta decays.

 

Neutron Diffraction

 It is a non destructive technique that is used to probe the structure of materials at the atomic level. The sample is placed within a neutron beam and the angles at which the neutrons are deflected or scattered by material are recorded to generate a  “diffraction pattern” from which structural information can be extracted. Diffraction occurs when the neutrons encounter atomic nuclei or magnetic diploes within the sample. With an effective wavelength of 0.1-20 nm, thermal neutrons are ideally suited for probing atomic scale structures with high resolution. As neutrons do not possess an electric charge, they readily pass through matter regardless of local charge distribution. In consequence, a neutron beam is capable of penetrating well beyond surface of a sample, to a depth of few centimeters in most condensed phases. The technique is widely used in engineering for stress mapping and to examine mechanical behavior of materials and engineering components.

Neutron Flux

The neutron flux (φ) measures the intensity of neutrons passing through a cubic centimeter of material. It is given by: φ= nv; where n is the density of neutrons (the number of neutrons per cm3) and v is the speed of the neutrons. The unit for neutron flux is neutrons.cm^-2.sec^-1.

In physical terms, the quantity ‘φ’ is the total distance traveled in one second by all the neutrons in the one cm³ volume, since it is obtained by multiplying the number of neutrons in that cm³ by the speed each is travelling. This is equivalent to the total length of all the neutron tracks laid down in one cm³ in one second. The expression for neutron flux applies to any neutron energy. When applied to thermal neutrons the product is known as the thermal neutron flux.  

Newton

It is SI unit of force. It is force required to accelerate a mass of one kilogram one meter per second per second. 

Newton’s First Law

Everybody continues in its state of rest or of uniform motion in a straight line unless it is compelled by an external force to change that state.

Newton’s Law of Cooling

The rate of loss of heat of a hot body (or rate of cooling of body) is directly proportional to mean excess of temperature of hot body over that of its surroundings.

Newton’s Second Law

The rate of change of momentum of a body is directly proportional to external force acting on it and takes place in the direction of force.

Newton’s Third Law

For every action, there is equal and opposite reaction.

 

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Macroscopic

Large enough to be perceived or examined by naked eye.

(or)

Anything which is considered for bulk of matter as a whole.

Magnetic Dipole

An object such as current loop, an atom or a bar magnet, that experiences torques due to magnetic forces. 

Magnetic Field Intensity

It is measured by force acting on unit magnetic pole. The field intensity is also specified by number of lines of force intersecting unit area normal to the field, equal numerically to field strength in Oersted.

Magnetic Induction

When any substance is subjected to a magnetic field, the magnetic flux per unit area taken perpendicular to direction of the flux is called magnetic induction.

Magnetic Permeability

Property of materials modifying the action of magnetic poles placed there in and modifying the magnetic induction resulting when the material is subjected to a magnetic field or magnetizing force. The permeability may be defined as ratio of magnetic induction in the substance to magnetizing field to which it is subjected.

Magic Number

When the number of protons is 2,8,20,28,50,82 or the no. of neutrons is 2,8,20,28,50,82,126 the nucleus is observed particularly stable and these numbers are referred to as magic numbers. Nuclei in which the no. of protons as well as no. of neutrons is equal to magic number belong to most stable group of nuclei.

Magnetic Dipole

Small bar magnet composed of north and south poles.

Magnetic Flux Density

 Also called as magnetic induction represents magnitude of internal field strength with in a substance that is subjected to an external magnetic field.

Magnetic Moment

A vector quantity that is a measure of the torque exerted on a magnetic system when placed in magnetic field and that for a magnet is the product of distance between its poles and the strength of either pole. It is usually created by electric current flowing in wire or with orbital motion of spinning electron caused intrinsic magnetic moment.

Magnetic Potential

Magnetic potential at a point is measured by the work required to bring unit positive pole from an infinite distance (zero potential) to the point.

Magnetic Resonance Imaging (MRI)

The use of magnetic fields and radio waves (instead of the X-rays employed in the CT scan) to visualize body structures and how they function. The powerful magnet, large enough to enclose the body, forces the atomic nuclei in most material such as soft tissue to align themselves with the magnetic field. Radio waves are aimed at the selected area to excite the atoms which, when the waves are stopped, emit signals that are converted to computer-generated pictures.

Magnetic Susceptibility

 It is a dimension less quantity and is proportionality constant between magnetization & applied external magnetic field.   

Magnetism

Old study which deals with simplest sources of magnetic fields, the permanent (bar) magnets. Magnets and magnetic fields are dealt without considering electrical charges in motion.

 

Magnetization

The phenomenon of formation of magnetic dipoles inside material due to application of uniform magnetic field.

(or)

The total magnetic moment per unit volume of material is called as magnetization.   

Magnetoresistance

It is property of crystal to change its electrical resistance when a magnetic field is imposed on it.

Magnetometer

An instrument used for measuring the intensity or direction of a magnetic field, especially the earth’s magnetic field.

Magnetostriction

The phenomenon of change in shape and density of a substance, especially a ferromagnetic substance, when exposed to a magnetic field is called magnetostriction. 

Magnification

The apparent enlargement of an object by an optical instrument is called magnification.

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Laboratory Frame of Reference

Frame of reference, the centre of the coordinate system which lies on the laboratory in which experiment is done.

                                            or

The frame of reference in which laboratory measurement devices are at rest is usually referred as laboratory frame of reference.

Lambda Particle 

It is a elementary particle, which is neutral and discovered in cloud chamber experiments, having life time of order 10^-10 sec and has rest energy of about 1115 MeV. It doesn’t conserve parity and has spin- 1/2. It belongs to class of Hyperons.

Lambda Point

When Helium is cooled to a critical temperature of 2.17 K (called its lambda point), a remarkable discontinuity in heat capacity occurs, the liquid density drops, and a fraction of the liquid becomes a zero viscosity "superfluid". Super fluidity arises from the fraction of helium atoms which has condensed to the lowest possible energy. In simple terms, the Lambda point is the temperature below which normal fluid Helium (Helium-I) transitions to super fluid Helium-II 

Lambert

The unit of brightness or luminance in CGS system, equivalent to brightness of a perfectly diffusing surface that emits or reflects one Lumen per square centimeter. 1Lambert (L) = 1/π Candela/cm².

Lambert’s Law of Absorption

Each layer of equal thickness absorbs an equal fraction of light which traverses it.  

Lambert’s Law of Illumination

The illumination of a surface on which light falls normally from a point source is inversely proportional to square of distance of surface from source. If the normal to surface makes an angle with direction of rays, illumination is proportional to cosine of that angle.

Lambert’s law

Law which describes the attenuation of intensity of electromagnetic wave inside a medium is called as Lambert’s law.

 

Laminar Flow

It is type of fluid flow in which the fluid travels in regular paths. In laminar flow, sometimes called streamline flow, the velocity, pressure and other flow properties at each point in the fluid remain constant.

Laplace Equation

It is a mathematical equation which gives the divergence of the gradient of a function. Laplace’s equation is a  second-order partial differential equation widely useful in physics because its solutions (known as harmonic functions) occur in problems of electrical, magnetic, and gravitational potentials, of steady-state temperatures, and of Hydrodynamics. The equation was discovered by the French mathematician and astronomer Pierre-Simon Laplace (1749–1827).

Larmor’s Precession

When an atom is placed in an external magnetic field, the electron orbit precesses about the direction of external magnetic field. There will be change in angular velocity of electron without any change in form of orbit.

LASER

It is acronym for Light Amplification by Stimulated Emission of Radiation. It is that device which produces an intense, monochromatic, coherent and unidirectional light beam is obtained. It was discovered in 1950, by Town & Shallow. LASER produces a light beam in which all the waves are of same frequency.     

Latent Heat (Heat of Transformation)

The amount of energy per unit mass that must be transferred as heat when a sample completely undergoes phase transition.

(or)

The amount of heat needed to change the state of a given substance without any change in temperature.

Latent Heat of Fusion

The quantity of heat necessary to change one gram of solid to liquid without change of temperature, measured as calories per gram.

Latent Heat of Sublimation

The heat absorbed by one gram or unit mass of a substance in the process of changing from a solid to a gaseous state, at a constant temperature and pressure.

Latent Heat of Vaporization

The quantity of heat necessary to change one gram of liquid to vapor without change of temperature, measured as calories per gram.

Lateral Chromatic Aberration

The difference in length of red and violet images for an object at finite distance is called lateral chromatic vibration.