Fundamental forces of nature.
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Fundamental Forces
Of
The Universe
Project By:-
Shamshad Khan
Rishabh Singh
Of
The Universe
Project By:-
Shamshad Khan
Rishabh Singh
Four Fundamental Forces
Weak
Nuclear
Strong
Nuclear
Electro-
Magnetism
Gravitation
Weak
Nuclear
Strong
Nuclear
Electro-
Magnetism
Gravitation
Gravitational Force
Gravitational force is the force of attraction between all masses
in the universe; (especially the attraction of the earth's mass for
bodies near its surface)
"the more remote the body is less the gravity“
The weakest of all forces.
Has infinite range (acts across the entire universe)
The “particle” that carries the force is called a graviton
"the gravitation between two bodies is proportional to the
product of their masses and inversely proportional to the square
of the distance between them.”
Gravitational Force
in the universe; (especially the attraction of the earth's mass for
bodies near its surface)
"the more remote the body is less the gravity“
The weakest of all forces.
Has infinite range (acts across the entire universe)
The “particle” that carries the force is called a graviton
"the gravitation between two bodies is proportional to the
product of their masses and inversely proportional to the square
of the distance between them.”
Gravitational Force
"Why do objects move toward the earth?"
"Objects yearn to be united with the earth."
Why do objects slow down when you put them in
motion?
"Objects in motion slow down because they get
tired.“
These are the works of Aristotle, which held sway for
almost 2,000 years until the beginning of modern
physics with Galileo and Isaac Newton.
Few Questions regarding Gravitation.
"Objects yearn to be united with the earth."
Why do objects slow down when you put them in
motion?
"Objects in motion slow down because they get
tired.“
These are the works of Aristotle, which held sway for
almost 2,000 years until the beginning of modern
physics with Galileo and Isaac Newton.
Few Questions regarding Gravitation.
Scientists Known for their contribution in
study of Gravitation.
study of Gravitation.
Isaac Newton (1643-1727)
Albert Einstein (1879-1955)
ELECTRO-MAGNETISM
•Electric force and Magnetic
force both can create Electro-
magnetic force.
force both can create Electro-
magnetic force.
Electric Force
It act only on
charged
particles such as
protons and
electrons.
Particles with
opposite charge
attract and
same charge
repel(push
apart).
It act only on
charged
particles such as
protons and
electrons.
Particles with
opposite charge
attract and
same charge
repel(push
apart).
Magnetic Force
It acts on certain metals(with magnetic
character), on the poles of magnets
and on moving charges.
Magnets are dipole(have two poles i.e.
south pole and north pole).
Like electric force, magnetic force is
attractive for opposite poles and
repulsive for similar poles.
It acts on certain metals(with magnetic
character), on the poles of magnets
and on moving charges.
Magnets are dipole(have two poles i.e.
south pole and north pole).
Like electric force, magnetic force is
attractive for opposite poles and
repulsive for similar poles.
The Fundamental Interactions
Interaction Strength Range
(m)
Mediator Mass
(GeV)
Gravitation 10^-43 ∞
Gravitons 0
Electromagnetic 10^-2 ∞
Photons 0
Strong 1 10^-15m Gluons 0
Weak 10^-6 10^-18m Bosons 80,80,91
Interaction Strength Range
(m)
Mediator Mass
(GeV)
Gravitation 10^-43 ∞
Gravitons 0
Electromagnetic 10^-2 ∞
Photons 0
Strong 1 10^-15m Gluons 0
Weak 10^-6 10^-18m Bosons 80,80,91
THE UNIFICATION
How magnetism generates electricity.
•Famous Scientists in the field
of Electro-Magnetism
of Electro-Magnetism
Hans Christian Orstead
.
Fig: The Compass-wire Experiment
14
th
August 1777-9
th
March 1851
.
Fig: The Compass-wire Experiment
14
th
August 1777-9
th
March 1851
James Clerk Maxwell
13
th
June 1831-5
th
Nov. 1879
Unified Electricity and
Magnetism.
Formulated Maxwell’s Equations
Proposed Light as an EM-wave.
13
th
June 1831-5
th
Nov. 1879
Unified Electricity and
Magnetism.
Formulated Maxwell’s Equations
Proposed Light as an EM-wave.
Electromagnetic Force
Acts between electrically charged particles
have infinite mass.
Described by Electro-Magnetic fields(EM-fields).
Act through an exchange(or Mediation)
of particles named photons.
Acts between electrically charged particles
have infinite mass.
Described by Electro-Magnetic fields(EM-fields).
Act through an exchange(or Mediation)
of particles named photons.
Uses of Electromagnetic
Force
All the particles with either electric charge or
magnetic moment(and of course a photon)
interact with the electromagnetic interaction.
Hydro-Electric Dams, Nuclear Power Plants,
Generators etc. work on this phenomenon.
Describes a number of phenomenon such as
Friction, Rainbows, Lightening.
Is the basis of existence of all electrically-driven
devices such as Computers, Televisions, Lasers
etc.
Force
All the particles with either electric charge or
magnetic moment(and of course a photon)
interact with the electromagnetic interaction.
Hydro-Electric Dams, Nuclear Power Plants,
Generators etc. work on this phenomenon.
Describes a number of phenomenon such as
Friction, Rainbows, Lightening.
Is the basis of existence of all electrically-driven
devices such as Computers, Televisions, Lasers
etc.
STRONG NUCLEAR FORCE
Quarks
• There are six types of quarks: up, down, charm, strange, top
and bottom.
• All quarks have an electric charge charge of either 2/3 or -1/3.
• All quarks have a spin of 1/2.
Gluons
• Gluons have a mass and electric charge of 0.
• Gluons have a spin of 1.
Properties of Quarks and Gluons
• There are six types of quarks: up, down, charm, strange, top
and bottom.
• All quarks have an electric charge charge of either 2/3 or -1/3.
• All quarks have a spin of 1/2.
Gluons
• Gluons have a mass and electric charge of 0.
• Gluons have a spin of 1.
Properties of Quarks and Gluons
Diffrence between Electro-Magnetic
and Strong Force.
and Strong Force.
WEAK NUCLEAR FORCE
Weak Nuclear Force or Weak Interaction is
responsible for decay of material . It can observed
on any material it time lapsed. Weak interaction
is responsible for such phenomena as beta decay
consolidated with electromagnetism as a single
interaction called electroweak interaction.
DEFINITION OF WEAK INTERACTION
responsible for decay of material . It can observed
on any material it time lapsed. Weak interaction
is responsible for such phenomena as beta decay
consolidated with electromagnetism as a single
interaction called electroweak interaction.
DEFINITION OF WEAK INTERACTION
Example Of WEAK INTERACTION
What hold the Neutrons and Protons in the nucleus of an
atom together? Weak Nuclear Force is the glue that does
that. If the number of these particles gets too big, the weak
force cannot hold all the Protons and Neutrons that are
moving around together and they are moving around
together and they drop something.
What hold the Neutrons and Protons in the nucleus of an
atom together? Weak Nuclear Force is the glue that does
that. If the number of these particles gets too big, the weak
force cannot hold all the Protons and Neutrons that are
moving around together and they are moving around
together and they drop something.
The Fifth Force
Weak
Nuclear
Strong
Nuclear
Electro-
Magnetism
Gravitation
Dark Energy
Weak
Nuclear
Strong
Nuclear
Electro-
Magnetism
Gravitation
Dark Energy
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