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  • So physics is a huge subject that covers many different topics going from galaxies in the

  • depths of space right down to subatomic particles.

  • And if you don’t already know physics its sometimes difficult to see how all these subjects

  • are related to each other.

  • So this is my attempt to show that in a map, so this is the map of physics, I hope you

  • enjoy it.

  • Physics can be broadly broken down in to three main parts: Classical Physics, Quantum Physics

  • and Relativity.

  • Well start with classical physics and a good person to start with is Issac Newton.

  • His laws of motion describe how everything made of matter moves about, and his law of

  • universal gravitation tied together the motion of planets in the sky with the falling of

  • objects on Earth into one elegant and general description.

  • He also invented calculus, a supremely powerful mathematical tool which has been used over

  • the centuries to derive new physics.

  • Calculus is really part of Mathematics but Physics and Mathematics are inseparable.

  • Mathematics is the language of physics, you can imagine it like the bedrock that the world

  • of physics is built from.

  • Newton also made strides in the field of optics which is the physics of light and how it travels

  • through different materials.

  • It explains, refraction seen in prisms, and lenses which are used to focus light in telescopes,

  • microscopes, and cameras.

  • Telescopes enabled us to peer into the depths of space and observe the wild array of objects

  • there and develop astrophysics and cosmology.

  • Optics is closely related to the theory of waves, which is basically how energy can travel

  • through disturbances of a medium, like ripples on the surface of a pond or sound through

  • the air.

  • Light doesn’t need a medium to travel through, it can travel through the vacuum of space,

  • but it still follows the same principles as all waves namely reflection, refraction and

  • diffraction.

  • This leads us to Electromagnetism: the description of magnets, electricity, or more generally,

  • electric and magnetic fields.

  • It was a Physicist called James Clerk Maxwell who discovered that these are two aspects

  • of the same thing and derived the wonderfully elegant rules of electromagnetism and theorized

  • that light was an electromagnetic wave.

  • Electromagnetism also explains all of electricity.

  • Jumping back a little bit, classical mechanics is related to Newton’s laws and covers the

  • properties and motion of solid objects, how they move when forces hit them, and what happens

  • when they are joined together, like in gears or buildings, or bridges.

  • Fluid mechanics is the description of the flow of liquids and gasses.

  • Using fluid mechanics you can work out how much lift is generated from a aeroplane’s

  • wing, or how aerodynamic a car is.

  • Fluid mechanics is notoriously difficult, mostly because motions of tiny things like

  • molecules get really complicated really fast.

  • Which leads us into Chaos theory.

  • Chaos theory is the description of large complex systems and how small differences in initial

  • conditions can lead to very different final outcomes.

  • Thermodynamics is the description of energy and how it passes from one form to another.

  • It also includes Entropy which is a measure of order and disorder, and basically tells

  • you how useful different kinds of energy are.

  • Energy is fundamental property to physics and although I have written energy here, I

  • should have written it everywhere because everything has energy.

  • So that is all of classical physics, the picture of the Universe we had around the year 1900.

  • It told us we lived in a Universe where everything ran sort of like clockwork, if you could measure

  • everything accurately enough the future was kind of predetermined.

  • However, not everything was solved, there were just a few of holes in experiments that

  • hinted at something else.

  • The orbit of mercury was slightly too fast and some strange things happened on the smallest

  • scales with electrons and light which were all unexplained.

  • Physicists at the time thought that they would solve and explain these problems soon enough

  • but poking at them unraveled the new domains of relativity and quantum physics and turned

  • our understanding of the universe completely on its head.

  • Albert Einstein was the genius who developed the theories of special relativity and general

  • relativity.

  • Special relativity is predicts that the speed of light is constant for all observers which

  • means that when you travel really fast weird stuff starts happening like time slowing down.

  • It also states that energy and matter are different aspects of the same thing through

  • the famous formula E=mc2.

  • General Relativity says that space and time are part of the same fabric called spacetime,

  • and that the force of gravity comes from objects bending spacetime, making other objects fall

  • in towards them.

  • While relativity describes the very big, other physicists were busy at work on the very small

  • in the world of Quantum Physics.

  • Atomic theory probed the nature of the atom, and more and more detailed descriptions of

  • the atom were developed.

  • From a tiny sphere, to electron orbit, to energy levels to the electrons being wave-like

  • charge distributions.

  • Condensed matter physics describes the quantum physics of many atoms together in solids and

  • liquids, and is where many great technologies have come from like computers, lasers and

  • quantum information science.

  • Nuclear physics describes how the nucleus of atoms behave, and explains radiation, nuclear

  • fission, the splitting of the atom used in our nuclear power plants, and nuclear fusion

  • which takes place in the Sun and will hopefully soon be harnessed here on Earth.

  • Particle physics probes even deeper to find the fundamental subatomic particles that everything

  • is made of and are described in the standard model of particle physics.

  • Quantum field theory captures all of quantum physics and combines it with the special theory

  • of relativity and is the best description of the universe we have.

  • Unfortunately quantum field theory doesn’t include gravity and so physicists don’t

  • know how to join together quantum physics and the general theory of relativity leading

  • to a giant chasm of ignorance.

  • One day in the future we hope to close this chasm and come up with a theory of all of

  • physics called quantum gravity, and there are many attempts to do this some examples

  • are string theory or loop quantum gravity and there is many more.

  • But quantum gravity isn’t the only thing we observe but don’t understand, there are

  • also the major puzzles of dark energy and dark matter which seem to make up 95% of the

  • Universe.

  • So physics only really describes 5% of what we know about and everything else, at the

  • moment, is a mystery.

  • And there are many other mysteries out there like the big bang, and no doubt there’s

  • other things that we don’t even know we don’t know.

  • a Which gets to the lofty cloud which floats

  • over all of physics: Philosophy.

  • Although many physicists make fun of philosophy, it is the big philosophical questions that

  • motivate a lot of physics, like, what is the fundamental nature of reality.

  • How come the Universe even exists?

  • Do we have free will if we are just made of physics?

  • Or how do we know we are actually finding out the truth.

  • And just why is all of physics like this?

  • Well those are rather big questions, ones which we may never answer, but that is no

  • reason to give up trying, after all, physicists are not quitters.

  • And that was, the map of physics.

  • So that’s the end, thanks for watching the video I hope you enjoyed it.

  • Ummm.

  • I’m still kind of working on the format for this channel and playing around with a

  • few different things and I kind of like this animation style so let me know if you enjoy

  • this kind of stuff and if you want me to do more and if there are any specific subjects

  • you want me to cover, I’m totally open to ideas, I’ve got a whole bunch of videos

  • that are coming down the pipe so keep your eyes peeled for those so until next time,

  • see you.

So physics is a huge subject that covers many different topics going from galaxies in the

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