What is the relationship between matter and waves in quantum mechanics?

In summary, the conversation discusses the concept of matter traveling as waves, with one person claiming to have calculated the amplitude and frequency of a baseball. Others question this idea and the validity of using E=mc^2 to evaluate anything. The conversation also touches on the topic of anti-matter and the relationship between energy and mass. The concept of photons as pure energy and their interaction with matter is also discussed. The conversation ends with a clarification of the duality between matter and energy according to Schrödinger's equation.
  • #1
Idyllic
14
0
Theres this retard on another forum preaching that matter travels as waves. And that he once calculated the amplitude and frequency of a baseball. Yes i know it sounds crazy, but tell me now that he's completely wrong. It really makes my blood boil reading all these posts about black holes and space from people who have zero education above high school in the field.

I'm ashamed and offended by everyone posting about things they know nothing and will always know nothing about.

Heres a post:

From mass-enery equivalence, E = mc^2, Energy is equal to mass times the speed of light squared. From my understanding, matter travels in the same way as light?waves. I remember calculating the amplitude and frequency of a baseball in physics, so that's fairly accurate.

Thus, matter resembles electromagnetic waves and require no medium (at least, in the traditional sense).

I respond to your question with another question: If anti-matter exists, and E = mc^2, then anti-energy must exist. If anti-energy, and E = hf (Energy = Constant x frequency), then anti-light must exist.

What the **** is anti-energy and anti-light?

and the reply to my post:

Actually if you want to get technical since particles travel in waves everything does but since a baseball is a macro object the wave is extremely small. You can actually use the uncertainty principle to determine how exact you can figure out the speed of a car relative to its position but the error for it is so small you wouldn't be able to argue your way out of a speeding ticket using that defence.
 
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  • #2
Sorry, he isn't. http://en.wikipedia.org/wiki/Matter_wave

However, his idea that anti-matter exists because E=mc^2 is nonsense along the idea of anti-light (or well, an anti-photon is still a photon, its own antiparticle).
 
  • #3
Pengwuino said:
Sorry, he isn't. http://en.wikipedia.org/wiki/Matter_wave

However, his idea that anti-matter exists because E=mc^2 is nonsense along the idea of anti-light (or well, an anti-photon is still a photon, its own antiparticle).

Yeh but baseballs? come on.
 
  • #4
Idyllic said:
Yeh but baseballs? come on.

Do you have an actual objection? Besides calling people who disagree with you "retards"?
 
  • #5
Idyllic said:
Yeh but baseballs? come on.

I've done that calculation too way back when in high school. I can't remember where it was used as an example/question. I used Giancolli's College Physics textbook in high school but I'm pretty sure they would not have deBroglie wavelength. Either way it probably is a very common example as it represents a large particle that will demonstrably have a very small wavelength.
 
  • #6
Hi there,

Just to add my little opinion to this one. The "retard", as you call him, is quite right. You can calculate the wave function of a baseball. But saying that from E=mc^2 you can evaluate anything is completely ridiculous. To calculate the wave function of a particle, you need to apply a beautiful equation made by a good friend, Schrödinger.

For the rest of his post, about anti-energy and anti-light, I am tempted to call this dude the same as you, but I'll hold myself back. Matter/anti-matter is created from photons (energy). You don't need anti-photons to create anti-matter. This phenomenon is called pair-production, under certain condition a photon will trasnform itself into a pair of particle/anti-particle. This is where Einstein comes into play, with E=mc^2.

Oh, and by the way, Schrödinger's equation is quite pretty, but very complicated to solve completely, especially for big objects like a baseball.

Cheers
 
  • #7
I'm a little confused about photons, so photons are pure energy, but not all pure energy are photons right, or aren't photons pure energy but just another form of energy, like mass?
These photons, hundred percent energy, are at the same time the messenger-particle in an electromagnetic field (a little side question, the light that is emitted by an electric shock comes from the plasma, because the air becomes charged, this has nothing to do with photons being the messengers in an electromagnetic field right?).
I have trouble understanding how 'light'-photons, 'messenger'-photons and these 'energy'-photons can be one and the same. Why does energy convert to mass anyway?

Are, according to quantum-physics, particles just another form of waves?
 
  • #8
Hi there,

I don't know if you are confused, but your questions are certainly confusing. So many questions in such few words. My god.

To answer your questions, photons are pure energy. They are the only source of pure energy.

Then again, from quantum mechanics theory, photons can interact with matter as little particle (marble like). Therefore, photons also have a matter-like nature.

From the electromagnetic point of view, photons are simply a mixture of electric field interlaced with magnetic field.

The light emitted by very hot matter has nothing to do with whatever you said. To understand, you have to look at matter itself. If you heat up matter, you give energy to the atoms. The atoms get excited after receiving this energy. Electrons will step up a few notch on the atomic orbit, as an effect of this excitment. Once the electrons (after a few splits of a second) deexcite, energy will be emitted in the form of photons (something in the wavelength of visible light).

Nobody really knows why energy converts to mass and vice-versa. It seems to be a stochastic effect.

Now, for your last question, according to Schrödinger's equation, there is a duality between matter/energy. Energy (photons) can be seen as matter, and matter sometimes behaves as light. Very awkward, but terribly interesting.

Cheers
 
  • #9
fatra2 said:
Hi there,

I don't know if you are confused, but your questions are certainly confusing. So many questions in such few words. My god.

To answer your questions, photons are pure energy. They are the only source of pure energy.

Then again, from quantum mechanics theory, photons can interact with matter as little particle (marble like). Therefore, photons also have a matter-like nature.

From the electromagnetic point of view, photons are simply a mixture of electric field interlaced with magnetic field.

The light emitted by very hot matter has nothing to do with whatever you said. To understand, you have to look at matter itself. If you heat up matter, you give energy to the atoms. The atoms get excited after receiving this energy. Electrons will step up a few notch on the atomic orbit, as an effect of this excitment. Once the electrons (after a few splits of a second) deexcite, energy will be emitted in the form of photons (something in the wavelength of visible light).

Nobody really knows why energy converts to mass and vice-versa. It seems to be a stochastic effect.

Now, for your last question, according to Schrödinger's equation, there is a duality between matter/energy. Energy (photons) can be seen as matter, and matter sometimes behaves as light. Very awkward, but terribly interesting.

Cheers

Thanks, it is a little clearer now! I'm sorry but I tend to be confused with it comes to quantum physics. ;)

The Coulomb-force decreases over the distance with 1/r², so it takes more energy to go from the the K to L-shell than from the L to M, so the light emitted when the electron falls back has a higher frequency (=more energy) when it falls back from L to K than from M to L, and would it fall from M to K, it has the highest frequency, is this correct?
 
  • #10
That seems correct
 
  • #11
Vanadium 50 said:
Do you have an actual objection? Besides calling people who disagree with you "retards"?
I agree with you.
Well, is the original one talking about me?
No.
I would like him to try some link on de broglie hypothesis and know that Einstein wasn't a retard to get a noble prize for his "particle light" assumption.
 
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  • #12
HallsofIvy said:
No one said anything about "Schrodinger's cat" which seems to be what you are talking about. They were speaking, instead, about "Schrodinger's equation" which governs all matter and shows that all matter can be treated as a wave. Frankly, all I can get from what you write is that you know nothing about physics but like to ridicule those that do.

firstly iv got to think how long will it be befor i get banned from here,when all want to know is why the youngs doubble slit experiment is all rubbish and seeing people use the cat in a box rubbish to explain the experiment (i know the cat in a box wasnt for youngs experiment it was for some thing else,but was then used as a example)
2nd i never made a comment on the base ball
i comented on the reaction to some one thinking retards can't have a voice,if i thought that electrons traveled in a cork skrew path and that if you looked at the cork skrew from side on you would see the wave patteren,and then to say that i was then looking at cloud chamber videos on youtube, and looking at the trailes that were made in the chamber looked to me as if they had a cork screw pattern,you would rubbish it without even thinking about and even if there was a glimmer of a slim chance that it might make sense would you even bother to look at videos of cloud chambers on youtube ?NO BECAUSE IM A RETARD
 
  • #13
kevinfr0st said:
firstly iv got to think how long will it be befor i get banned from here,when all want to know is why the youngs doubble slit experiment is all rubbish and seeing people use the cat in a box rubbish to explain the experiment (i know the cat in a box wasnt for youngs experiment it was for some thing else,but was then used as a example)
2nd i never made a comment on the base ball
i comented on the reaction to some one thinking retards can't have a voice,if i thought that electrons traveled in a cork skrew path and that if you looked at the cork skrew from side on you would see the wave patteren,and then to say that i was then looking at cloud chamber videos on youtube, and looking at the trailes that were made in the chamber looked to me as if they had a cork screw pattern,you would rubbish it without even thinking about and even if there was a glimmer of a slim chance that it might make sense would you even bother to look at videos of cloud chambers on youtube ?NO BECAUSE IM A RETARD

sorry found out i broke room rules part of question was about some one not wanting to have a voice but went off subject wasnt a attempt to take over or flaming as it is called
sorry
 
  • #14
fatra2 said:
photons are pure energy.

Energy is a property of an object. Photons have not only energy, but also intrinsic angular momentum (often called "spin").
 
  • #15
I have always been appalled by the "calculate the wavelength of a baseball" problems because this calculation does not correspond to anything that anyone could ever measure. At the QM level the momentum of a baseball is not even well defined, unless perhaps the baseball existed in a region at absolute zero temperature.

The verdict is that assigning a wavelength to a baseball is nonsense, but that this kind of nonsense is also taught in high school physics and is excused by the idea that it will raise the student's interest.
 
  • #16
Civilized said:
I have always been appalled by the "calculate the wavelength of a baseball" problems because this calculation does not correspond to anything that anyone could ever measure. At the QM level the momentum of a baseball is not even well defined, unless perhaps the baseball existed in a region at absolute zero temperature.

The verdict is that assigning a wavelength to a baseball is nonsense, but that this kind of nonsense is also taught in high school physics and is excused by the idea that it will raise the student's interest.
Yes, I agree that there is no way of assessing the wavelength of a macroscopic object. If the momentum is 1 kgm/s, the wavelenth is 6.63*10^-34metres, which does sound like nonsense.
 
  • #17
We were told the baseball example too on the very first QM lesson, and I think it is purely to bridge a gap between the quantum world students are about to learn and the 'normal' world around us. If you're not going to show the students that, even 'theoretically', with loads of false assumptions etc, a baseball would not exhibit measurable wave behavior, then you are bound to get questions like "but why doesn't a baseball wave?"...
 
  • #18
jtbell said:
Energy is a property of an object. Photons have not only energy, but also intrinsic angular momentum (often called "spin").
I agree, and would also point out that a photon has lots of linear momentum too. In fact, it is not "pure energy" but energy maximally "contaminated" by momentum.
 
  • #19
You cannot calculate the wavelength of a baseball. For instance, you cannot just assume that there is a ψ for the baseball that obeys Schroedinger's equation for V=0. I suppose that in principle maybe the wave function can be calculated. But you must consider that a baseball is a composite of zillions of ψ's, and these ψ's interact with even more interactions that appear in the potential term in Schroedinger's equation. Even assuming that V were somehow known, there simply are not enough computational resources on the planet to calculate such a wavefunction in your lifetime (OK, I am making assumptions at this point).

The calculation of the QM wavelength of a baseball is absurd, and it only gives a dangerously small amount of knowledge to students.
 

What is the concept of matter travelling as waves?

The concept of matter travelling as waves refers to the idea that particles, such as electrons and protons, can exhibit both particle-like and wave-like behavior. This means that they can have properties of both particles and waves, depending on the situation.

How is matter able to travel as waves?

Matter can travel as waves because of its inherent wave-particle duality. According to quantum mechanics, all particles have an associated wavelength and can behave as waves under certain conditions. This is known as the wave-particle duality principle.

What evidence supports the theory of matter travelling as waves?

One of the key pieces of evidence supporting the theory of matter travelling as waves is the double-slit experiment. This experiment showed that particles, such as electrons, can exhibit interference patterns like waves do, indicating their wave-like behavior.

How does the concept of matter travelling as waves relate to quantum mechanics?

The concept of matter travelling as waves is a fundamental principle of quantum mechanics. It helps explain many phenomena at the atomic and subatomic level, such as the behavior of electrons in an atom and the uncertainty principle.

What are the practical applications of understanding matter as waves?

Understanding matter as waves has led to many practical applications, such as the development of technologies like transistors and lasers, which are based on the wave-like behavior of electrons. It has also helped advance fields like quantum computing and telecommunications.

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