Wave-Particle Duality
Wave-Particle duality is the rudimentary introduction to Quantum Mechanics. Quantum mechanics is the study of microscopic part of our nature or the study of the actions taking place at sub-atomic level. This is a total contrast to Classical Mechanics in which the study involves only macroscopic level.
Wave-Particle Duality is something like split personality. Electrons sometimes behave as waves and sometimes as particles. It all depends on the situation. In 1905, Einstein published a paper that revolutionized physics, it was known as the photoelectric effect, i.e Electrons are ejected out from metals, when they absorb light in the form of photons in quantized packets. This proved that light acts as particles and comes in the form of photons in tiny packets as Planck deduced. Einstein was rewarded with a Nobel Prize for his work on photoelectric effect, because it helped physicists understand the true reality of light. Light being both wave and particles how can that be? If this didn't sound bizarre to you, then you haven't actually understand what I just told.
For those who are not shocked when they first come across quantum theory cannot possibly have understood it -Richard Feynman
These actions should sound bizarre because these type of duality never happens in our classical world. Obviously, you don't see homo-sapiens often change into canis (Latin word for dog). We live in a world which is entirely different from the quantum world, If suppose you and your friends shrink yourselves to a tiny electron or a photon you would totally understand how the quantum world works, in fact you would be a part of that world, moving around randomly, obeying wave-particle duality and other quantum postulates.
Now that I've given you an example of a particle situation. I would like to demonstrate a situation in which wave is considered. Imaging a slit that has two slits (holes) and there is another sheet behind it in order to capture the paths of light. If suppose you shoot one particle on the left side of the whole you would get a pattern only on the left side. Similarly, if you shoot another particle on the right side, you would an interference pattern on the right side only. But what happens when you shoot a particle on both sides? Well, obviously according to our classical world throwing a ball on both the slits would result in imprinting both sides of the sheet i.e is the left and the right one.
But unfortunately this doesn't happen in the quantum world. You see we are talking about particles not tennis balls. So, here you see a complete interference pattern that looks like this.
This interference pattern looks this way because in this particular situation light acts as a wave. Just like how when you cause a disturbance to the water it starts creating waves. Now allow water instead of light through those slits, guess what? You will certainly see the same interference pattern. Because water too travels as waves too. The dark spots are the paths of light waves. The white parts occurs due the cancellation of light waves. Now that you know a basic property of light I would like to introduce special relativity in order to explain the gravitational bending of light phenomena. For more information on dual slit experiment I suggest you to check out the lectures given by Richard Feynman in Caltech.
Special Relativity
In order to understand the depth of this topic you will have to read the basics of Special Relativity.
Since I've already introduced you to the basics of special relativity, I will be talking about special relativity from the notion of photons.
Anything that has mass, is incapable of traveling at the speed of light. -Albert Einstein.
Light that is made up of photons. How could photons travel at the speed of light?
You see, according to the postulate, if you moved at the speed of light it would take infinite amount of energy to push you to reach the speed of light, which is impossible.
But if you had no mass. i.e mass is equal to 0. Then you would certainly be possible to move at the speed of light. Photons are mass-less particles and that's the reason why it travels at the speed of light.
The Equation,
was derived from special relativity. This 1 inch equation explains numerous things. An important and famous equation. According to Einstein, a small mass has enormous amount of energy (Postulate). In fact, this is solution for atom bombs. Scientists used Einstein equations to produce atom bombs.
Lets do some elementary math to confirm this postulate,
From a small amount of mass we get enormous amount of energy.
I haven't still explained the answer to the gravitational bending of light, because this requires a bit of mathematics. I will conclude this with an answer to the topic in the next article.
Wave-Particle duality is the rudimentary introduction to Quantum Mechanics. Quantum mechanics is the study of microscopic part of our nature or the study of the actions taking place at sub-atomic level. This is a total contrast to Classical Mechanics in which the study involves only macroscopic level.
Wave-Particle Duality is something like split personality. Electrons sometimes behave as waves and sometimes as particles. It all depends on the situation. In 1905, Einstein published a paper that revolutionized physics, it was known as the photoelectric effect, i.e Electrons are ejected out from metals, when they absorb light in the form of photons in quantized packets. This proved that light acts as particles and comes in the form of photons in tiny packets as Planck deduced. Einstein was rewarded with a Nobel Prize for his work on photoelectric effect, because it helped physicists understand the true reality of light. Light being both wave and particles how can that be? If this didn't sound bizarre to you, then you haven't actually understand what I just told.
For those who are not shocked when they first come across quantum theory cannot possibly have understood it -Richard Feynman
These actions should sound bizarre because these type of duality never happens in our classical world. Obviously, you don't see homo-sapiens often change into canis (Latin word for dog). We live in a world which is entirely different from the quantum world, If suppose you and your friends shrink yourselves to a tiny electron or a photon you would totally understand how the quantum world works, in fact you would be a part of that world, moving around randomly, obeying wave-particle duality and other quantum postulates.
Now that I've given you an example of a particle situation. I would like to demonstrate a situation in which wave is considered. Imaging a slit that has two slits (holes) and there is another sheet behind it in order to capture the paths of light. If suppose you shoot one particle on the left side of the whole you would get a pattern only on the left side. Similarly, if you shoot another particle on the right side, you would an interference pattern on the right side only. But what happens when you shoot a particle on both sides? Well, obviously according to our classical world throwing a ball on both the slits would result in imprinting both sides of the sheet i.e is the left and the right one.
But unfortunately this doesn't happen in the quantum world. You see we are talking about particles not tennis balls. So, here you see a complete interference pattern that looks like this.
This interference pattern looks this way because in this particular situation light acts as a wave. Just like how when you cause a disturbance to the water it starts creating waves. Now allow water instead of light through those slits, guess what? You will certainly see the same interference pattern. Because water too travels as waves too. The dark spots are the paths of light waves. The white parts occurs due the cancellation of light waves. Now that you know a basic property of light I would like to introduce special relativity in order to explain the gravitational bending of light phenomena. For more information on dual slit experiment I suggest you to check out the lectures given by Richard Feynman in Caltech.
In order to understand the depth of this topic you will have to read the basics of Special Relativity.
Since I've already introduced you to the basics of special relativity, I will be talking about special relativity from the notion of photons.
Anything that has mass, is incapable of traveling at the speed of light. -Albert Einstein.
Light that is made up of photons. How could photons travel at the speed of light?
You see, according to the postulate, if you moved at the speed of light it would take infinite amount of energy to push you to reach the speed of light, which is impossible.
But if you had no mass. i.e mass is equal to 0. Then you would certainly be possible to move at the speed of light. Photons are mass-less particles and that's the reason why it travels at the speed of light.
The Equation,
was derived from special relativity. This 1 inch equation explains numerous things. An important and famous equation. According to Einstein, a small mass has enormous amount of energy (Postulate). In fact, this is solution for atom bombs. Scientists used Einstein equations to produce atom bombs.
Lets do some elementary math to confirm this postulate,
From a small amount of mass we get enormous amount of energy.
I haven't still explained the answer to the gravitational bending of light, because this requires a bit of mathematics. I will conclude this with an answer to the topic in the next article.
No comments:
Post a Comment