The Formula, 2nd edition, has now been published and is free from Sunday 5/17/2020 through Thursday 5/22/2020. Some of the math has been removed from the novel to improve the flow of the story. However, more detailed versions of chapters that have been shortened are available on this website as well as other supplementary material, for readers so inclined.
Tag: Quantum mechanics
The Formula: Supplemental Material
On 9/12/2019, I made a post indicating my intention to publish articles on 4 topics – topics designed to provide explanatory material to supplement my novel, The Formula. These 4 topics were:
- RSA encryption
- Quantum encryption
- Bell’s Theorem
- Bohmian mechanics
My articles on these 4 topics have finally been published. Here are the links to those articles:
- RSA Encryption I
- RSA Encryption 1
- RSA Encryption 2
- Quantum Encryption
- Bell’s Inequality 1
- Bell’s Inequality 2
- Bell’s Inequality 3
- Bohmian Mechanics
Some additional background material is also needed to understand the rather complicated subject of Bohmian mechanics. Here are links to those pages:
- Requisite Mathematics
- Primer on Quantum Mechanics
- Delayed Quantum Eraser Experiment
- Lagrangian Mechanics
- Hamiltonian Mechanics
- Hamilton-Jacobi Equation
This project (at least for me) has been a massive undertaking. As noted in my last post, I’ve attempted to edit as best I could, but if any errors or inaccuracies have gotten by me, please let me know by clicking on the “Contact” link in the right upper corner of the page.
Bohmian Mechanics
My page on Bohmian mechanics has finally been published. Despite my initial (unrealistic) ambitions to the contrary, this could not have been made understandable without providing extensive background information. Accordingly, multiple additional articles have been published simultaneously. They include the following:
- Bohmian Mechanics
- Math (multiple articles)
- Primer on Quantum Mechanics
- Delayed Quantum Eraser Experiment
- Lagrangian Mechanics
- Hamiltonian Mechanics
- Hamilton-Jacobi Equation
I attempted to edit this material as best I could but the project has been extensive. Therefore, it’s likely that some errors have slipped past me. If anyone finds any typos, inaccuracies or other problems, please let me know and I’ll attempt to address them.
I hope that you will find this material interesting and informative.
The Formula is Free!
A brutal murder, a frantic race to possess a precious religious artifact and an explanation for evil via quantum mechanics and chaos theory mark my novel, The Formula, a Dan Brown-like thriller for readers fascinated by math, extreme physics and the relationship between science and religion. It will be FREE on 8/23/19 and 8/24/19. You can download it on Amazon at the following link:
The Formula is Free!
My novel, The Formula, is Free from Monday 7/29/2019 through Wednesday 7/31/2019. You can find out more about this Dan Brown-like thriller with a twist at the following link:
The Formula is Free!
My novel, The Formula-a Dan Brown-like thriller for readers who are fascinated by theoretical physics and the relationship between science and religion-will be FREE on Amazon from Monday 5/6/19 through Wednesday 5/8/19. Check it out at the following link:
Progress on Bohmian Mechanics
I’ve begun work toward creating a page introducing Bohmian mechanics, a topic that plays a small but central role in my novel The Formula. I tried to come up with a way to make this introduction brief. However, after much deliberation, I feared that such brevity would make such a page like many popular science pieces-a string of generalizations and other unexplained statements that might pique a reader’s interest but leaves them with no real understanding of the topic. As stated in the introduction to this website, my goal is to move beyond such a popular understanding, but in a way that can be comprehended by an interested reader without extensive pre-existing knowledge of math and science. To do this, I believe that the details left out in popular science explanations must be filled in.
To gain such an understanding of Bohmian mechanics in particular, some background in (though not an exhaustive knowledge of) mathematics is needed. Accordingly, I’ve completed a page outlining the basics of Euclidean Geometry and have half completed a page on trigonometry. Next will be some information on calculus and differential equations. Finally, and most importantly, I’ll discuss linear algebra, a branch of math that is indispensable to comprehending quantum mechanics. For the time being, I’ll try to give just what I think is necessary to understand the subject at hand. At a later date, I’ll try to provide additional information that hopefully will create a more comprehensive presentation though, after starting work on this, I’ll probably have to do this by providing links to already established presentations 1) because I don’t think I can complete such an enormous task myself and 2) because comprehensive presentations are already available that are probably much better than I can ever produce.
After the math, I’ll need to provide an introduction to quantum mechanics. That introduction will need to proceed, at least, through a derivation of the Schrodinger equation since it is a modification of the Schrodinger equation that is central to Bohm’s theory. I’ll probably base my discussion on Quantum Mechanics: The Theoretical Minimum by renowned physicist, Leonard Susskind. It provides a detailed mathematical derivation of the Schrodinger equation but explains all the math in simple terms. (I strongly recommend The Theoretical Minimum series of books and free online lectures by Dr. Susskind for any interested amateur-like myself.) My ultimate goal with the page is to review Bohm’s original derivation of his so-called guiding equation, an equation that is the heart and soul of his theory.
Planning on what to include so as to streamline the text as much as possible has been a difficult task, one that has occupied most of the time elapsed since my last post. I’d like to say that I’ll have this article complete soon but, frankly, I’m not optimistic. We’ll see how it goes.
Bell’s Inequality 2
After over a month of writing, editing and re-editing, Bell’s Inequality 2 is finally ready to publish. I learned LaTex and put my equations directly into my page with a plugin call QuickLaTeX. It’s quite a tedious process, but as far as I can tell, it’s either that or create my pages as PDFs, as I did for Bell’s Inequality 1. Hopefully, I’ll get better at it as I go. I’ve investigated (and tried) a few other plugins but they haven’t worked very well. If anyone knows of an easier way, I would be eager to hear about them.
The article is a bit long, mainly because there are multiple explanations of subjects that are second nature to experts but probably confusing to the uninitiated. Frankly, I wish I would have had more such explanations when I was trying to learn about these topics. That’s why I included them. However, as I read them over, the explanations, themselves, are tedious. I would be interested in feedback about how I might deliver this content in a more efficient manner.
Bell’s Inequality 2 is about John Bell’s original paper, published in 1966, that provided a way to test whether quantum mechanics is a true description of reality or-as Einstein suggested-an incomplete theory; a theory that overlooks the fact that local hidden variables are actually at play to produce the results that quantum mechanic predicts. However, Bell’s paper raised theoretical questions but did not provide experimental evidence to answer them. The scientific world would have to wait a number of years for such answers. The paper that is usually cited as having provided a definitive answer to these questions is one by Alain Aspect in 1982. Aspect’s paper is the subject of the third installment in this series on Bell’s inequality, an article entitled Bell’s Inequality 3. I will begin work on it shortly, a project that will undoubtedly take some time. Meanwhile, a link to the second installment in this series can be accessed by clicking on the link below:
Bell’s Inequality 1
The next topic I’d like to discuss is Bell’s Inequality, a mathematical relationship that opened the door to validation of quantum mechanics. My goal is to do this in 3 installments. The first discussion on this subject can be found by clicking on the following link: