For
over 300 years classical physics was the backbone of the modern civilization
before 19th century. Newtonian Mechanics (Classical Mechanics) and Maxwell’s Electromagnetism(Classical Electrodynamics) were the driving forces of the modernization.
Newton’s “Philosophae Naturalis Principia Mathematica” is a scientific marvel
of all time. This book reflects Newton’s mathematical insight to explain the
laws of nature. Maxwell’s four equations in electromagnetism unified magnetism
and electricity into a common fundamental interaction called the
Electromagnetism and endorsed the world with hi-tech electric machineries.
But during the early decades of 20th century
some revolutionary ideas evolved which changed not only the course of physics
but also the modern civilization to a new horizon. Through the introduction of
Quantum Theory, Max Planck in 1900 initiated the era of modern physics. This
theory postulated that energy is quantized i.e. energy transferred
is always in discrete amount and is not continuous. Using this concept
he could explain black body radiation which classical physics was unable to
explain. A black body is an ideal matter which absorbs all the frequencies of
light falling
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| Fig:Einstein |
on it and reflects none. That is why it is ideally black. Also,
on heating a perfect black body emits maximum energy. Under classical physics
this energy was calculated to be infinity. But, it does not radiate infinite
amount of energy though maximum. A constant “h” known as the Planck’s constant
is named in his honour. In 1905 which is often known as the Miracle Year in
physics community, a 26 year old low
profile clerk at the Swiss Patent Office published his three revolutionary
papers in the scientific journal “Annalen der Physik” which changed world
history. He was none other than the great Albert Einstein who came to be known
as the greatest physicist of all time. These papers contributed substantially
to the foundation of modern physics and showed for the first time that reality
is much more bizarre than what we perceive. The first paper was about
“Photoelectric Effect” for which he was awarded the Nobel Prize in 1921.In this
paper using Planck’s concept he explained that radiant energy i.e. light is
quantized which means that light comes in the form of particles known as
Photons having zero rest mass and is able to impart momentum to an electron on
the metal surface. This concept re-established the corpuscular nature of light
(explained earlier by Newton) which was being perceived as an electromagnetic
wave as Maxwell’s equations explained. The second paper was about the Brownian
Motion. In this paper he explained how the pollen grains move in a zig zag path
around the surface of water because of their collision with water molecules and
confirmed the existence of atoms. He even calculated the size of atoms. His
third paper, The Special Theory of Relativity was a groundbreaking one and the
most complex one. There was a saying among the people that only a few
scientists of that time could fully understand the mathematics of this theory.
The postulates of this theory were :
a)
The laws of physics are the same in all inertial frames (non-accelerating
frame) of reference. It implies the absence of a universal frame of reference
which was confirmed in Michelson-Morley Ether experiment in 1887. Suppose, you
are juggling a ball in a train moving with a constant velocity (inertial
frame). Your intuition may say that the ball has to be left behind you when you
throw it up and you have to stretch back to catch the ball. But, from your
experience you know that the ball always falls on your hand and you need not
stretch back to catch it. This is sufficient to understand from this thought
experiment that the laws of physics are the same in all inertial frames of
reference.
Again suppose, A is moving in a spacecraft with constant velocity in
outer space towards B who is stationary (for our convenience of understanding)
at some point of space. Now say, all the visible masses of the universe are
removed. In such a situation none of them can prove by any experiment who is
actually moving and who is stationary. Each of them will find the other one
moving towards him. It implies that there is no absolute motion. Every motion
is relative. In other words there is no universal frame of referene. Had any
one of them been accelerating he would have felt a force which would have
proved his state of motion.
b)
The speed of light is constant in all inertial frames of reference. This
postulate resulted in the conclusion that nothing can move faster than light.
In the late 19th century it was found that the relative speed of light is
always constant i.e. approximately 3 x 10^8 m/s irrespective of the observer
i.e. whether the observer is moving towards the direction of light or against
it. This postulate was an incredible one and it totally changed human perception
about space and time. He showed that space and time are not two distinct
entities. Instead they are intertwined into each other as a flexible common
fabric known as the “Space-time Continuoum”. Einstein explained that it is the
spaceward motion of the observer which reduces his timeward motion which slows
down the course of time (time dilation). Space and time adjusts themselves to
keep the speed of light constant. As the speed of an object increases space
gets contracted and time gets slowed down so that the speed of light remains
constant. The more it moves through space, the less it moves through time. This
phenomenon is noticeable only when the speed of the observer is comparable to
that of light. The mathematics of special relativity also implied that the
length of an object gets reduced with increase in speed (length contraction)
and mass of an objects increases with the increase in speed. All these
phenomena has been experimentally proved and have been used in several modern
technologies such as the Global Positioning System popularly known as GPS,
particle physics etc. Another important implication of this theory was the
mass-energy equivalence principle defined by the equation E=mc^2. This equation
has been considered as the world’s most famous equation. It means that mass can
be converted to energy and vice versa. This equation has been used for realising
nuclear power.
After proposing the Special Theory of Relativity, Einstein felt that his
theory was limited to some special cases i.e. to constant speeds. Einstein felt
an obvious need to extend his concept to accelerating motions. It took ten
years for Einstein to solve this problem. But, trying to incorporate
acceleration to relativity Einstein found himself standing against the God of
physics of that time, Sir Issac Newton. Newton was the first to explain gravity
as a fundamental force acting between any two bodies in the universe and
quantified the force with a mathematical equation with very great accuracy.
But, he failed to explain how the mechanism works which he himself admitted in
his book, Philosophae Naturalis Principia Mathematica. Einstein threw away the
Newtonian picture of gravity with his greatest discovery ever. Suppose, the sun
disappears suddenly. According to Newton the earth will follow a tangential
path within no time. But, Einstein questioned that how the effect of gravity
could reach the earth instantly as nothing can move faster than light. Even the
light from the sun needs 8 minutes to reach earth. Thus, Einstein put forward
his General Theory of Relativity in 1915 to explain gravity. The Principle of
Equivalence is the central idea of this theory. The principle states that one
can’t distinguish between the two situations :
a) A person
standing on earth and
b) A person
in a spacecraft moving with an acceleration ‘g’ in outer space.
In both the cases the person feels the same force. The person standing
inside the spacecraft feels as if he is standing on earth. It implies that
gravity can be created simply by acceleration. Similarly, one can’t distinguish
between the two cases :
a) A person
in free fall and
b) A person
in free space where any source of gravity is not present.
In both the cases the person feels weightless. Einstein objected that if
gravity is a force, why one does not feel force in free fall where he is
accelerating. Einstein made a breakthrough and changed the century-long
perception of gravity. He explained that gravity is actually the distortion or
curvature of space-time continuoum caused by the presence of massive bodies
rather than being a force. Einstein in
his Field Equations which is a set of partial differential equations written
under
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| Fig: Moon orbiting around Earth |
tensor natation explained how the
presence of large masses causes the flat space to curve and vice versa. This
curvature in space-time continuoum is responsible for the falling of objects on
earth and the motion of planets around the sun. In flat space a free object
moves in straight line. But, when the space itself is curved the object will
also follow a curved trajectory. Thus, the motion of the planets around the sun
is just an inertial motion in curved space-time. Moreover, it is not the earth
that pulls the objects, it is the space which pushes the objects towards earth.
To understand the mechanism let us stretch a plain cloth holding it with its
four corners and put a football on it. Now, we observe that the presence of the
football causes the cloth to stretch downward. This is how mass curves
space-time continuoum. Now, if we throw a small ball near the football it will
move around the football in a circular path for a short time (or forever if the
real gravity was absent). This is how planets move around the sun. Thus, there
is no absolute space. Rather it is twistable, malleable and it can even ripple.
As light in an accelerated frame of reference travels in a curved path,
Einstein from his equations predicted that light must also deviate from its
straight path in the presence of gravity which was successfully proved in a
solar eclipse in 1919 when stars behind the sun became visible which was a
straight proof of his theory. This theory predicted some bizarre never before
cosmological phenomena like the existence of
black holes, gravitational lensing, existence of gravitational waves
etc. A black hole is a dead star whose mass is more than three times the mass
of sun. Such a star curves the space so much that it forms an infinitely deep
hole in space. There is a region called the Event Horizon around the black hole
from where nothing, even light can
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| Fig: A Black Hole |
not escape and thus it looks black.
Scientists claim that a supermassive black hole exists at the core of our Milky
Way galaxy. Gravitational lensing is the phenomenon where, as because light
gets deviated from its straight path due to gravity of some stars, we get
distorted or multiple images of the star. Gravitational waves are caused by some cosmological explosion like novae and supernovae. Scientists all
around the world are in a hunt for gravitational waves which if detected will
be the greatest success of General Relativity.
Einstein’s ideas totally transformed the face of earth and human
perception about reality. Most of the modern discoveries like
the Neutron Stars,Black Holes,Nuclear energy,LASER,GPS and even Big Bang Theory
can’t be explained without using Einstein’s ideas. He also contributed
substantially to the development of Quantum Mechanics. He developed the Bose-Einstein
Statistics in Quantum Mechanics in collaboration with the Indian Mathematician Satyendra
Nath Bose. which helped in the discovery of the fifth state of matter called
the Bose-Einstein Condensate. The particles which obey Bose-Einstein Statistics
are called Bosons (e.g light photon),
named in the honour of Satyendra Nath
Bose. However, Einstein opposed the probabilistic interpretation of reality in Quantum
Mechanics .Due to his mind blowing ideas he remains the greatest scientific
hero of all time even after six decades
of his death. He is worshiped by millions who love to rejoice the beauty in the
laws of nature. A low profile patent clerk turned the greatest physicist of all times, he is
really an inspirational figure in human history.
