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^What is optics?

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^What is optics?

The branch of Physics which deals with light, it’s nature, cause, source, properties & it’s effects is called Optics.

^What is light?

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^What is light?

In general light means following three parts

  1. Infra red radiation or thermal radiations
  2. visible light
  3. ultraviolet light,

As these are parts of EM spectrum, thus light is electromagnetic, thus properties of light are same as that of any EM wave. Light can behave like a ray, a wave & as a particle, depending on its interaction with the objects it encounters on its way.

^Electromagnetic Force

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^Electromagnetic Force

EM – force acts between charged particles. It binds electrons with nuclei to form atoms & binds atoms together to form molecules. It is responsible for the properties of solids, liquids, & gases. Force of attraction/repulsion between two static charges is described by the Coulomb’s law i.e

Electric forces and magnetic forces were considered to be separate forces until the 1860s when James Clerk Maxwell was able to demonstrate that they were different manifestations of the same force – the electromagnetic force. Infact, all contact forces such as: Frictional force (f), Viscous force (Fv), Air drag (fd) Spring force (Fspring or Fr), Normal reaction (N), Tension force in ropes, strings & muscles (T), Buoyant force (B or U), Surface tension force (FS) are actually due to the electromagnetic force.

^Maxwell equations

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^Maxwell equations

Following five equations give a complete description of all em– interactions and are called Maxwell eq:

^ γ-rays

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 – rays

(a) Produced in nuclear reactions and are also emitted by radioactive nuclei (such as Co 60 & Cs 137).

(b) Properties: Effect on photographic plate, fluorescence, ionization, diffraction, high penetrating power & can cause serious damage if absorbed by living tissues.

(c) Used

  1. in radio therapy to treat certain cancers and tumors
  2. to produce nuclear reactions
  3. to study the atomic nuclei.

^Ultraviolet light

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^Ultraviolet light

(a) Produced by special lamps like mercury and iron are lamps and by very hot bodies like sun.

(b) Properties: Effect on photographic plate, fluorescence, ionization, highly energetic, tanning of the human skin.

(c) Used

  1. To destroy bacteria and for sterilizing the surgical instruments
  2. In the detection of forged documents finger prints
  3. In burglar alarms etc as they can cause photoelectric effect.
  4. For studying fluorescence
  5. In the study of molecular structure and arrangement of electrons
  6. To prevent the food stuff.

^Visible light

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^Visible light

  1. Produced by hot bodies like sun, electric bulbs and tubes etc. as a result of electronic transitions. Our eyes are sensitive to visible light which helps us to collect the information about our surrounding.
  2. Properties: Reflection, refraction, interference, diffraction, polarization, photoelectric effect, photographic action, sensation of sight.

^Infra red waves

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^Infra red waves

(a) Also called heat waves & are produced by hot bodies and molecules.

(b) Properties: Heating effect, reflection, refraction, diffraction & propagation through fog.

(c) Used

  1. In taking photographs during the conditions of fog, smoke etc. as these waves are scattered less than visible rays and hence can travel longer distances through atmosphere under fog, smoke etc.
  2. In weather forecasting
  3. In checking the purity of chemicals
  4. In the study of molecular structures
  5. For producing dehydrated fruits
  6. In green houses to keep the plants warm
  7. To provide electrical energy to satellites using solar cells.
  8. To treat muscular strain.
  9. In solar water heaters and cookers.

^Cyclotron

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Cyclotron

Also called magnetic resonance oscillator) & is the first circular accelerator designed was by American Physicist Ernest O. Lawrence. + vely charged particles like proton, deutron & alpha particles etc. can be suitably accelerated by cyclotron. It can’t be used to accelerate light particles (e.g. electrons) & neutral particles (e.g. neutrons).

^Charge particle in magnetic field

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Charge particle in magnetic field

A point charge moving in uniform magnetic field experiences a force on . Behaviour of charge particle depends on the angle ‘θ ‘ between .

Case 1, if θ = 00 or 1800

When the charged particle  moves  parallel or anti parallel to field then no net force acts on it & its trajectory remains a straight line.

Case 2, If θ is other than 00, 1800 & 900  

Charge particle moves in a helical path of radius , completes one circle in time & travels a distance in one time period in the direction of field called pitch & is given by,

Case 3, If θ is 900

Charge particle moves in a circle at uniform speed.

Radius of circular path is

KE of particle is constant. It completes a cycle in time  at angular frequency .

As the force acting on the particle is only normal & no tangential force is available thus speed & hence KE also of the particle will remain unchanged. As the kinetic energy of the charged particle remains constant. Hence no work is done in moving a charge particle moving at right angles to the magnetic field. However due to change in direction  &  are variables in direction.

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