What is the most important constant in physics?

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SUMMARY

The forum discussion centers on the significance of various physical and mathematical constants, with participants debating the importance of constants such as Pi (π), Euler's number (e), the speed of light (c), and Planck's constant (h). Participants highlight that while e and π are mathematical constants, they also play crucial roles in physics, particularly in quantum mechanics and geometry. The discussion concludes that while constants like c and g are essential, e is posited as the most significant due to its fundamental role in mathematics and physics.

PREREQUISITES
  • Understanding of mathematical constants such as Pi (π) and Euler's number (e)
  • Basic knowledge of physical constants like the speed of light (c) and Planck's constant (h)
  • Familiarity with quantum mechanics principles, including canonical commutation relations
  • Concept of gravitational constant (g) and its variability
NEXT STEPS
  • Research the role of Pi (π) in geometry and its applications in physics
  • Explore the significance of Euler's number (e) in calculus and its implications in quantum mechanics
  • Study the implications of Planck's constant (h) and its relationship to h-bar in quantum theory
  • Investigate the gravitational constant (g) and its effects on planetary motion and space travel
USEFUL FOR

This discussion is beneficial for physicists, mathematicians, and students interested in the foundational concepts of physics and mathematics, particularly those exploring the implications of constants in scientific theories.

What is the most important constant in physics?

  • g

    Votes: 1 4.5%

  • e

    Votes: 2 9.1%

  • pi

    Votes: 8 36.4%

  • c (speed of light)

    Votes: 8 36.4%

  • other

    Votes: 3 13.6%
  • Total voters
    22
split
Messages
25
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0
So, what is it?
 
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Let's make it "what is your favorite constant?" All of these constants are important for different reasons.
 
What about the universal gravitation constant?


Voted c.
 
Pi is great because it comes up everywhere. Pi is especially great on Thanksgiving... mmmm...
I have to agree with Ambitwistor. 0 and 1 are pretty important too, but they're not as natural as pi. By that I mean, pi is a constant of nature (if you consider geometry a part of nature). 0 and 1 we made up. If either were an option, I would have hesitated.
 
e and pi are not physical constants, they are mathematical constants. I suppose you could say that that makes them physical constants by default, but my point is that c, for instance, is NOT a mathematical constant. In that regard, I would have to say that e and pi are more important than any other physical constant, but that they are equally important to each other.
 
e is the most significant (e is the charge of an electron right?)

If there was not speed limit of nature it wouldn't really affect our lives as much if there was no charge then we would sink through the floor since the molecules wouldn't have a intermolecular relationship keeping them rigid, there would be no elements, no chemestry.

g isn't really a constant is it. as soon as we blast a spaceship off the planet, then the g of the planet is going to change ever so slightly since its mass has changed. Without g I am going to assume that by u mean g being important means that if it weren't existent there wud b no gravity.

We cud live without gravity quite happily, life wud be a bit more consvative.

Wow I am tired and off 2 bed
 
alpha, of course

fine structure constant.

JMD
 
What about h? h-bar? i?
 
Originally posted by FZ+
What about h? h-bar? i?

I agree, what about Planck's constant? Seems like an important constant to me.

P.S. h-bar is important but it is h/2pi(I think). So you would have to have that important constant pi to have h-bar. For this reason I would put pi above h-bar as a more important constant.
 
  • #10
Originally posted by Ambitwistor
In fact, hbar is really more fundamental than h; it's what appears in the canonical commutation relations which are the foundation of quantum theory. [/B]

Oh really? I didn't know that. I guess you learn something new everyday.
 
  • #11
due to the length contraction etc. you might think it's c

but length contraction seldom appears in real life
 
Last edited by a moderator:
  • #12
I think it's e (as I wrote before)

Look.
c can be changed, pi is used for circles and similar figures,
g variates and G is not included.

The right answer is e, cause e^ix = cos(x) + isin(x), D(e^x)= e^x etc.
e^i2(pi)= 1
 
Last edited by a moderator:
  • #13


Originally posted by QuantumNet
c can be changed


How exactly do you change c? Sounds fishy to me.
 
  • #14


Originally posted by bdkeenan00
How exactly do you change c? Sounds fishy to me.

you put c to 1 and E = m and x^2 + y^2 + z^2 = t^2 etc.
 

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