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Einstein's Theory of Relativity Made Easy!

Einstein’s Theory of Relativity Made Easy!

From what it is, to its impact on the world at large, join us as we explore Einstein’s Theory of Relativity made easy, and explain it so everyone can understand it. (Simplified)

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So where do we start with something as big and as complicated as the Theory of Relativity? I’m sure some of you wouldn’t even know what it is outside of its name, which is fine. But I’m sure you do know the man who came up with the idea, Albert Einstein. Einstein is revered as one of the smartest people to ever live, and he helped shape how we perceive both our world and our universe. So it might surprise you that this very brilliant man once started off as nothing more than a patent clerk. No, really, he did, and that’s part of the origin story to the Theory of Relativity.
Because one day, after doing his work at the patent office, he went on a trolley car to go home. And he would do this day after day after day. This is important because while he was on that car, he would think about the universe at large. He would ask himself questions and try to figure out the answers as best he could with the information he had. And one day, he was going away from a clock tower when he asked what would happen if the car he was on was going away from the clock tower…at the speed of light.
This may seem like an odd question to ask, but lightspeed travel is something that scientists are honestly trying to achieve right now, and these questions were truly the building blocks of this really happening. Anyway, back to the clock tower. Einstein theorized, as well as realized, that if he was moving the speed of light (which if you don’t know is 299,792,458 meters per second), the hands on the clock tower (meaning the minute hand and the hour hand) would quite literally appear to stop in place.
But, he also knew that while he himself was traveling at the speed of light and seeing everything stop more or less, everyone who was at the clock tower, and seeing things in “normal time” would not see them stop. The clock tower and its hands would keep ticking along as if nothing wrong.
Yet in this experiment, for Albert Einstein, time had literally slowed down, and it was at this moment that the “light bulb” went off in his head. Because it was through this experiment that he realized that if you go faster and faster through space, you’re actually causing time to go slower around you. But how was this possible if time was quite literally a constant force in the universe?
To try and answer this, Einstein would look to some of the other fathers of science to try and figure out the missing points in his equation. For example, he looked at the three laws of motion via Sir Isaac Newton. Newton notes that while objects do move at a certain speed, their values are never an absolute. Mainly because every speed we go at is based on a force imparted on something, or relative to something else. Such as how a car can go 65 miles per hour on a highway…but that’s only because the ground and friction ALLOW it to do so. No friction on the road? You’re not going that speed. Thus why he notes that every speed has to have “in respect to” another force or object that is allowing or perceiving that object’s speed.
However, in contrast, there is James Clark Maxwell, the father of electromagnetism, who notes that of all the things in the universe, it is light that is fixed. And as noted, light goes 299,792,458 meters per second. That will never change. That speed is another constant force in the universe. Anyone, anywhere in the world, or even anywhere in the universe will be able to determine that the speed of light is the same, it won’t change, and that’s part of the reason why the universe works like it does, because the speed of light is constant, right?
But therein lies the problem, or at least, Einstein realized that this was a problem. Because Newton said that no speed in the universe could be an absolute. But then Maxwell counters this by saving the speed of light is ALWAYS a constant. Which means that these two very universal and very accepted pieces of science are at a contradiction. Which is something you never want in the world of science, trust me.
If you’re still not getting the full picture of why this is a problem, here’s another thought experiment from Einstein to help explain it.
Imagine you are at a train station, and you are standing out on the platform when a storm comes. Then, out of the blue, two lightning bolts strike on either side of you. Because of your position in the middle of these lightning bolts, you perceive them at the exact same time, and the light reaches you at that same time.

Theory Of Relativity: Einstein’s Twin Paradox!

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What Caused The Big Bang?

What Caused The Big Bang?

The Universe began not with a whimper but with a Bang! Everything in this Universe and the Universe itself came into existence because of the commonly told Big Bang.
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It all started when in 1922, a Russian Meteorologist, Alexander Friedmann proposed that the universe might be expanding. In a very rare blunder, Albert Einstein, when came to know about this, rejected his theory and with his erroneous calculations proved him wrong. Five years earlier, Einstein had published the Static model of the universe and was very convinced that it was correct. He claimed Friedmann’s theory to be violating the conservation of energy. After eight months, however, Einstein admitted his mistake and published a retraction. The Equation of General Relativity allows for the possibility of an Expanding Universe.
Today this Big Bang theory is an accepted idea of cosmology. The Expansion of the Universe was first observed by Vesto Slipher in the Early 1920s and in 1929, Edwin Hubble who had access to some world’s largest telescopes gave the Hubble Law. According to it, every distant galaxy is moving away from each other with a velocity proportional to its distance. The farther away a galaxy is, greater is the velocity with which it moves away. Then Arno Penzias and Robert Wilson detected a background of microwave radiation known as the Cosmic Microwave Background(CMB) radiations today, coming to Earth from all the directions. It was an afterglow of the primordial, hot and dense Fireball. Today, with the data collected from the Cosmic Background Explorer (COBE) satellite fits perfectly with the Big Bang and that it accounted for the light nuclear isotopes like deuterium, hydrogen, helium-3 and others. The Big Bang theory is a success but in its traditional form as it was proposed is incomplete. Though it’s called the Big Bang Theory, it does not tell us anything about the Bang! It’s the theory of what happened after the Big Bang, describing how the universe cooled and expanded, and how mater formed different Stars and Galaxies. The theory does not tell us anything about the underlying physics of this explosio*. It not even mentions what caused the Bang, what Bange*, why it Bange* and what happened before the Bang! The inflationary cosmos explains this and we will discuss the physics behind it in this video.
Could the Big Bang have been caused by the gigantic bag of TNT, or a thermonuclear explosio*? Or maybe a gigantic ball of matter collided with a gigantic ball of anti-matter. In fact, none of these events are responsible for the Big Bang and start of our Universe. The Big Bang had two very special and distinct features that differentiated it from any typical explanation.
First, On large scales Big Bang was far more homogenous than any ordinary explosio*. We must clarify you first while discussing homogeneity, that the Universe is inhomogeneous in many ways. New York differs from California and so are the Stars, galaxies and the clusters scattered through the space in a complex pattern. Cosmologically, these are all small scale. On a large scale, like if we divide the Universe into cubes of 300 million light years or more. We would find that each cube resembles the others in all its properties like mass density, light output, etc. The biggest evidence of it is the Cosmic Microwave Background(CMB)  Radiations and data from the COBE satellite. We would need a brief history about the Cosmic Microwave Background Radiation to explain the uniformity of our Universe. The Early Universe was boiling and dense and it would rip apart the electrons from the atoms which resulted in a plasma that filled the space. This  plasma was very opaque. So the protons making up the Cosmic Microwave Background radiations, were absorbed and re-emitted constantly. After about 300,000 years the universe cooled to form a transparent plasma of neutral atoms. Since then, the photons have travelled on a straight path and provide us an image of a universe that was 300,000 years old.
Normally such uniformity is easy to explain, because anything comes to a uniform temperature when left undisturbed for a long time. But in the Big Bang theory, the universe develops quickly, leaving no time for the universe to evolve and uniformity to be established. For the sake of discussion lets pretend that the universe contains blue creatures, each having a furnace and refrigerator and have the task to create a uniform temperature.
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