Month: April 2021

I like to think about QM sometimes…

| Cosmoshivani

My ramblings – part one

I woke up this morning and just randomly opened a chapter in the quantum mechanics book. I could see all those paragraphs, some underlined, things written here and there. “Yes I’ve been here before”, I thought. I don’t really wanted to read but then I started reading unwillingly. Questions started popping in my head. Its like when you read a thing but when you come back to it after a long time, you ask something to yourself and then the whole paragraph makes sense, like why it was written in the first place. “Oh, so that’s what it was trying to say!”. Now you understand that thing because you asked the right question in your mind. And you were curious to know why. The answers were just sitting there (like all of the truth) but what was missing is the right question.

And that right question was, “How do you solve a time dependent schroedinger equation?”. I have only focused on how the time independent one is solved that I forgot why we were doing it in the first place. You get different solutions for different energy values, so called infinite solutions. But then you can always form a linear combination of all of them to get the more general solution, or the solution of time dependent shroedinger equation.

My ramblings – part two

In mechanics, finding x and t is just the beginning. After that we have velocity, acceleration, force etc. to calculate. But calculating psi in quantum is such a difficult task.

In mechanics there are so many situations you have to apply those formulas to. But in quantum mechanics its so hard to even get past the first step. It’s just one of the many problems during qm learning process.

And another thing that’s even more daunting is that, the whole edifice of QM is based on the Hamiltonian formulation of classical mechanics (whatever that means πŸ˜•).

Probably because QM is so hyped of being mysterious and fundamental; that’s why there is an awe when we read these things, even if it’s hard. But in that sense, mechanics or statistical mechanics is as much mysterious and fundamental. But it still doesn’t feel that way (to me). I don’t know why.

The Boring History Of Quantum Theory

| Cosmoshivani

So, this boring history of quantum theory starts when scientists began realizing that not everything can be explained using classical mechanics (though even today i dont see how it describes things πŸ€”; nothing seems real). Actually, in a sense they were already aware of their ignorance but as the experimental observations began piling up and they couldn’t figure out why, they started doubting that there is more to this world than the mold they were trying to fit it all in. Too bad πŸ’”πŸ₯ΊπŸ˜‘… But life goes on…

If I remember correctly, there was this blackbody radiation experiment; it turned out that warm bodies are quite picky in what kind of radiation they want to emit (like i set aside anything that i don’t like in my plate, no matter how fresh or healthy it is) no matter how powerful or energetic. And then Max Planck came to the rescue and told us that the electromagnetic radiation is very picky and can’t be helped.

In a pile of pages, there was a paper explaining how matter particles ignore the number of photons coming to its rescue unless they really struck the right cord. How romantic ☺❀πŸ₯° After reading this paper that person (you know who 🀭) declared that not only the electromagnetic radiation but atoms themselves are very picky. There are teenii tiny bits inside them; these little babies are very nauseas about leaving their home πŸ₯ΊπŸ˜­πŸ’”

I don’t know if he woke up from a dream where he saw a swarm of photons shouting, We Are Bored…, We Are Bored…, We are Bored…!!! It was really cute, so he decided to do something about it. He thought why not announce a race between them. So, he made two holes in a paper, and… listen carefully, made them Real Close. “Get, Set, annnnnnddddd GO!!!”, he said. Cute, chubby, and yellow photons glittering everywhere around him. The Sun must be really happy today; its children, little pieces of its own heart are having a bllaaassstttt!!! Those yellow babies started racing faster and faster…. “me going fassttt πŸ₯Ί” … “nooo me going faster”… but they didn’t realize that they were all racing at the same speed. “It’s so fun to see these cuties mushmashing in there”, he thought. “I should do it more often”.

Sadly, when people found out what was going on, they weren’t happy at all πŸ˜‘πŸ˜. They said that’s not how a swarm of photons should behave! It’s against the law… blah blah blah. But Remember, the photons were already having a blast so they never listened to anyone, and they even started enjoying when humans were annoyed by their behavior. So they decided to do something bigger…. 🀭

One of them, who had just arrived on earth and was pretty bored travelling for millions of years, suggested. “hey buddies, i’ve heard they are going to install cameras in tomorrow’s race, to spy on us!” … “whooaaaa really!”, a little photon who just got up from its nap said. “I’m telling you, we need to really mess it up!”. And after explaining them what its plan was (author: which is always kept secret in movies so i’m not gonna tell you either) raising both of the hands said, “Are You With Me!??” And everyone shouted, “Yes We Are! We Are Bored… Yes We Are! We Are Bored”.

And again, no one was happy how the swarm of photons were behaving. Suddenly, they were famous all over the world. They kept making new plans for annoying the humans, (who were always so keen to have a control over it all) and enjoyed every bit of it. People started telling these stories generation after generation.

Not only humans, but there were others who were not happy about their fame. And they decided to beat ’em up. They were teeny tiny bits inside the atoms. But no matter how silently they talked about their plan, the atom was bound to find out. So they took it in their plan as well. 🀫

So now not only photons, but those teenii tiny bits and their atoms also became famous. But photons had their own charm and no one could ever take their place. πŸ₯°

Humans were always having a blast, destroying everything, and killing each other but it wasn’t enough so they decided to find out why and how the photons and atoms were having such a blast without killing each other πŸ€”. But NO ONE EVER FOUND OUT WHY OR HOW. 🀯

While photons were celebrating and having a blast, humans were getting mad, scribbling on papers, trying to find out how they can figure out the secrets of the universe. (🀫🀭There were no secrets at all🀭🀫).

But there were some photons… They leaked some of the information to a german guy…,”Hey buddy, what’s up? You know we have decided to have some privacy. Hope you people don’t mind… and blah blah blah”. And he got so happy that he couldn’t sleep all night and waited for the sunrise with a big smile on his face.

Books… hmmm…

| Cosmoshivani

if a book doesn’t make you smile, throw it away and actually throw away all of them until you find the right one β€πŸŒΌπŸ¦‹πŸŒΏ

Real Analysis by Terence Tao! Oh yeah!

| Cosmoshivani

Never thought, the day would come when I’ll read this masterpiece – Real Analysis. Today I’m going to review a few things that got stuck in my mind.

I should be sleeping now, my phone’s battery is just 6%. But I’ll just write the things I remember. Also I dont have the book in my phone. So, lets goooo!

Okay so it starts with “Why bother” section. A perfect start for people like me. In it, he said, Analysis is the Why of calculus. And most of us get satisfying feeling in knowing the Why even if knowing How does the job.

He then asks a lot of questions, like what is the smallest positive number after 0? And similar ones..

Then there are a lot of examples showing how the known methods of computation in calculus can lead to wrong conclusion.

These examples include convergence of series, for one.

Like, if you add 1 – 1 + 1 – 1 + …

like this, 1-(1-1)-(1-1)-.. then its 1.

but if you sum it like this, (1-1)+(1-1)+(1-1)+…=0

so which one of these is correct?

Another example was, swapping the rows and columns and finding that either way, the summation is the same. Though, it doesn’t work if the summation involved infinite number of elements.

There was also an example of swapping the variables in a second order partial derivative; the answer was different after swapping.

Similar example was shown for interchanging the limit and integration.

We have used these methods and techniques but have no idea how and why they work and most importantly as shown in all those examples, where they don’t.

He promised that we will get all these answers as we read more.

But I’m not very sure if I will.

I’d like to try atleast a few more chapters.

Seeya!

Disclaimer: I am neither a mathematician nor I strive to be one. Period.