This document provides an introduction to electromagnetism. It discusses how electricity and magnetism are different facets of the same electromagnetic force. It covers the history of electromagnetism from ancient observations of amber and lodestone to Maxwell's equations unifying electricity and magnetism. The document also describes magnetic fields and forces, electromagnetic induction, electromagnets, Tesla coils, the electromagnetic spectrum, and potential health effects of low-frequency electromagnetic fields.
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Electromagnetism Document - Abhinay Pratap
1. ELECTROMAGNETISM
NAME:- ABHINAY PRATAP
DIV:- D
ROLL NO.:- 17
SUBJECT:- PHYSICS
BRANCH:- COMPUTER SCIENCE AND ENGINEERING
INSTRUCTED BY SACHIN JADHAV
Email:-abhinay.pratap.2000@gmail.com
Insta:- bhojpur_babu
Snap:-officialpratap
2. INTRODUCTION:
ï§ Electricity and magnetism are different facets of
electromagnetism.
âą A moving electric charge produces magnetic field.
âą Changing magnetic fields move electric charges.
ï§ Einstein saw electricity and magnetism as frame
dependent facets of unified electromagnetic force.
ï§ Electromagnetic phenomena are defined in terms of the
electromagnetic force, sometimes called the Lorentz force.
ï§ The theoretical implications of electromagnetism,
particularly the establishment of the speed of light based
on properties of the "medium" of propagation
(permeability and permittivity), led to the development of
special relativity by Albert Einstein in 1905.
3. HISTORY :
ï± The origin of electricity and magnetism
sprang from ancient menâs curiosity over
the ability of two materials, amber and
lodestone to attract other materials.
ï± With the publication of James Clerk
Maxwellâs 1873, A Treatise on Electricity and
Magnetism in which the interactions of
positive and negative charges were shown
to be mediated by one force.
ï± Hans Christian Ărsted was not the only
person to examine the relationship between
electricity and magnetism.
ï± In early 19 đĄâ century faraday discover
electromagnetic induction.
4. LAWS OF MAGNETIC FORCE:
ï¶FIRST LAW:-
Like poles repel each other and unlike poles attract each other.
ï¶SECOND LAW:-
The magnetic force between two isolated magnetic poles placed in a
medium is directly proportional to the product of the pole strength and
inversely proportional to square of the distance between them.
F =
đ đ đ đ
đ đ
Where K is a constant whose value depends upon the surrounding
medium.
K =
đ
đđ đ đ đ đ
, Where đ đ = Absolute permeability
đ đ = Relative permeability
5. Magnetic field lines:
ï The magnets exert their influence
in the surroundings, this is called
magnet field.
ï Magnetic field is a quantity that
has both direction and
magnitude.
ï The direction of the magnetic
field is taken to be the direction
in which a north pole of the
compass needle moves inside it.
6. Direction of Magnetic field:
âą Right hand-palm rule :
âFirst make the thumb and fingers of the right hand
perpendicular to each other and put the thumb
along the wire in the direction of the current and
fingers point towards the point of observation.ââ
âą Right hand-thumb rule :
âIf the thumb is along the direction of current,
wrapped fingers will show the direction of circular
magnetic field lines.ââ
âą Fleming Left-hand rule :
âHold out your left hand with forefinger, second
finger and
thumb at right angle to one another. If the fore
finger represents the direction of the field and the
second finger that of the current, then thumb gives
the direction of the force.ââ
7. âą Right hand rule :
âHold out the right hand with the first finger,
second and thumb at right angle to each other. If
finger represent the direction of the line of force,
the thumb points in the direction of motion or
applies force, then second finger point in the
direction of the induced current.ââ
âą Magnetic field in a circular
loop :
Clockwise : South pole Anticlockwise : North pole
8. Electromagnet:
ïArranging wire in coil and running a current
through produces a magnetic field that looks a
lot like bar magnet.
âą Called an electromagnet
âą Putting a real magnet inside, can shove the magnet back and
forth depending on current direction : Solenoid
9. TESLA COIL:
ïŒ A Tesla coil is a resonant air core
transformer system inventor Nikola
Tesla in the 1890âs.
ïŒ Originally, Tesla coils were designed
to broadcast electricity and signals
wirelessly.
ïŒ It is a from of induction coil for
producing high frequency
alternating currents.
10. THE ELECTROMAGNETIC SPECTRUM:
ï Relationship between frequency, speed and wavelength, frequency Ă
wavelength =speed of light.
ï Different frequencies of electromagnet radiation are better suited to
different purposes.
ï The frequency of a radio wave determines its propagation
characteristics through various media.
ï Photon energy is directly proportional to the wave frequency, so
gamma ray photons have very low energy.
11. ELF-EMF MAY AFFECT THE DNA IN HUMAN
CELLS:
ï§ Used technical to detect any DNA damage at the level of
the individual eukaryotic cell (Comet assay).
ï§ Human primary fibroblast cells were exposed to 50Hz of
emf at 1 militesla(mT) of flus density.
ï§ Assay showed that the processes of DNA replication and
cell reproduction were the ones affected, not on the
DNA itself.
ï§ In conclusion, the exposure of human primary fibroblast
to ELF-EMF simulates cell termination(necrosis) rather
than DNA alteration .
12. Exampleof Electromagnetic
Radiation:
âą AM and FM radio waves
âą Cell phone
communication links
âą Microwaves
âą Infrared radiation
âą Light X-rays
âą Gamma rays
Uses of Electromagnetic Waves:
âą Communication system (One
way and two way)
âą Radar
âą Cooking (Microwaves)
âą Medical Imaging(X rays)
âą âNight visionâ (Infrared)
âą Astronomy (Radio, Microwave,
IR, Visible, UV, Gamma