Zero-point energy

Enby Panda said:
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only smokes the best )
Che-Guevara.jpg
 
Actual zero point energy is an absolute mindf__k, and represents a colossal problem in the world of physics:

https://en.wikipedia.org/wiki/Zero-point_energy


This leads onto the problem of vacuum energy

The effects of vacuum energy can be experimentally observed in various phenomena such as spontaneous emission, the Casimir effect and the Lamb shift, and are thought to influence the behavior of the Universe on cosmological scales. Using the upper limit of the cosmological constant, the vacuum energy of free space has been estimated to be 10−9 joules (10−2 ergs), or ~5 GeV per cubic meter.[3] However, in quantum electrodynamics, consistency with the principle of Lorentz covariance and with the magnitude of the Planck constant suggests a much larger value of 10^113 joules per cubic meter. This huge discrepancy is known as the cosmological constant problem or, colloquially, the "vacuum catastrophe."[citation needed]
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https://en.wikipedia.org/wiki/Vacuum_energy

Summary video here:

And if you want a really nice dive into the physics of the problem:
 
MathGeek said:
Hi my name is John
Im 15 years old i just wanted to show that my generation still has hope
I've been working on this theorem.It's very basic and it will require a lot of work but i am willing to dedicate my
whole life to make it true.Here it is. I know it's not the right thread.

For any object, the loundounium(my made up name) percentage (L) can be calculated by dividing the number of inhibiting forces (A) by the total number of possible outcomes or things that can happen to the object (x), and then multiplying by 100.

Statement of the theorem: For any object, the loundounium percentage is given by L = (A / x) * 100.

Proof: To prove the theorem, we need to show that the loundounium percentage formula accurately represents the relationship between inhibiting forces and possible outcomes.

Let's assume an object with a certain number of inhibiting forces, A, and a total number of possible outcomes or things that can happen to the object, x.

According to the theorem, the loundounium percentage (L) is calculated as L = (A / x) * 100.

To establish the proof, we need to demonstrate that the loundounium percentage accurately represents the ratio of inhibiting forces to possible outcomes.

By dividing the number of inhibiting forces, A, by the total number of possible outcomes, x, we obtain the ratio A / x. Multiplying this ratio by 100 gives us the loundounium percentage.

The loundounium percentage represents the relative strength or impact of inhibiting forces on the possible outcomes for the object. By dividing A by x, we scale this ratio to a percentage, which provides a measure of the inhibitory influence on the object.

Therefore, the formula L = (A / x) * 100 correctly represents the loundounium percentage for an object based on the given assumptions. I asked Chat-GPT about some of its possibe uses and this it what it showed
  1. Physical systems analysis: The theorem could be applied to analyze physical systems where inhibiting forces play a significant role. By quantifying the inhibiting forces in relation to the range of possible outcomes, it may help in understanding the limitations or constraints on the system's behavior.
  2. Energy efficiency analysis: In energy-related fields, the theorem could be used to evaluate the efficiency of processes by considering the inhibiting forces that restrict the desired outcomes. By quantifying these inhibiting forces relative to the total potential outcomes, it may assist in identifying areas for improvement or optimizing energy utilization.(this is for you eskom)
  3. Particle interactions: The concept of loundounium could potentially be extended to describe the influence of inhibiting forces on particle interactions. It could aid in analyzing the impact of external factors on the behavior of particles and the range of possible outcomes in particle physics experiments.
  4. Stability analysis: The theorem could be relevant in assessing the stability of physical systems. By quantifying the inhibiting forces compared to the possible outcomes, it may help determine the likelihood of system stability or the need for additional control mechanisms to counterbalance the inhibiting forces.
  5. Optimization problems: The loundounium theorem might be applicable in certain optimization problems in physics. By considering the inhibiting forces and their impact on the range of possible outcomes, it could guide the development of strategies to optimize the system's performance or achieve desired objectives. Obviously i still need to find out the Number of things that can happen to an object at any possible time and a universal unit of measurement of forces. (mabye N) but it will all happen in time. Thanks to anyone who took their hard earned time to read a 15 year old's theorem
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Are you from Zimbabwe? Some dodge mf inventors from that place..

If not, have you published? Get your stuff peer reviewed, it's the only way to establish your theorem as a valid one.
 
grok said:
Are you from Zimbabwe? Some dodge mf inventors from that place..

If not, have you published? Get your stuff peer reviewed, it's the only way to establish your theorem as a valid one.
Click to expand...
Im 15 years old i just wanted to show that my generation still has hope

I would assume not at this point.
 
the only Zero point modules I know of exist in Stargate,
stargate.fandom.com

Zero Point Module

A Zero Point Module, often abbreviated ZPM, is a power source, created by the Ancients, capable of supplying tremendous amounts of energy. It is one of the most formidable power sources known to exist, having been developed by the Ancients several million years ago during their reign of the...
stargate.fandom.com stargate.fandom.com

you telling me the Stargate program is real?
 
Jet-Fighter7700 said:
the only Zero point modules I know of exist in Stargate,
stargate.fandom.com

Zero Point Module

A Zero Point Module, often abbreviated ZPM, is a power source, created by the Ancients, capable of supplying tremendous amounts of energy. It is one of the most formidable power sources known to exist, having been developed by the Ancients several million years ago during their reign of the...
stargate.fandom.com stargate.fandom.com

you telling me the Stargate program is real?
Click to expand...
Yes, Stargate show creators probably knew of and investigated zero-point energy, it is also present in Star Trek. I have not been able to find any sources trying to prove it not real.
 
MathGeek said:
Hi my name is John
Im 15 years old i just wanted to show that my generation still has hope
I've been working on this theorem.It's very basic and it will require a lot of work but i am willing to dedicate my
whole life to make it true.Here it is. I know it's not the right thread.

For any object, the loundounium(my made up name) percentage (L) can be calculated by dividing the number of inhibiting forces (A) by the total number of possible outcomes or things that can happen to the object (x), and then multiplying by 100.

Statement of the theorem: For any object, the loundounium percentage is given by L = (A / x) * 100.

Proof: To prove the theorem, we need to show that the loundounium percentage formula accurately represents the relationship between inhibiting forces and possible outcomes.

Let's assume an object with a certain number of inhibiting forces, A, and a total number of possible outcomes or things that can happen to the object, x.

According to the theorem, the loundounium percentage (L) is calculated as L = (A / x) * 100.

To establish the proof, we need to demonstrate that the loundounium percentage accurately represents the ratio of inhibiting forces to possible outcomes.

By dividing the number of inhibiting forces, A, by the total number of possible outcomes, x, we obtain the ratio A / x. Multiplying this ratio by 100 gives us the loundounium percentage.

The loundounium percentage represents the relative strength or impact of inhibiting forces on the possible outcomes for the object. By dividing A by x, we scale this ratio to a percentage, which provides a measure of the inhibitory influence on the object.

Therefore, the formula L = (A / x) * 100 correctly represents the loundounium percentage for an object based on the given assumptions. I asked Chat-GPT about some of its possibe uses and this it what it showed
  1. Physical systems analysis: The theorem could be applied to analyze physical systems where inhibiting forces play a significant role. By quantifying the inhibiting forces in relation to the range of possible outcomes, it may help in understanding the limitations or constraints on the system's behavior.
  2. Energy efficiency analysis: In energy-related fields, the theorem could be used to evaluate the efficiency of processes by considering the inhibiting forces that restrict the desired outcomes. By quantifying these inhibiting forces relative to the total potential outcomes, it may assist in identifying areas for improvement or optimizing energy utilization.(this is for you eskom)
  3. Particle interactions: The concept of loundounium could potentially be extended to describe the influence of inhibiting forces on particle interactions. It could aid in analyzing the impact of external factors on the behavior of particles and the range of possible outcomes in particle physics experiments.
  4. Stability analysis: The theorem could be relevant in assessing the stability of physical systems. By quantifying the inhibiting forces compared to the possible outcomes, it may help determine the likelihood of system stability or the need for additional control mechanisms to counterbalance the inhibiting forces.
  5. Optimization problems: The loundounium theorem might be applicable in certain optimization problems in physics. By considering the inhibiting forces and their impact on the range of possible outcomes, it could guide the development of strategies to optimize the system's performance or achieve desired objectives. Obviously i still need to find out the Number of things that can happen to an object at any possible time and a universal unit of measurement of forces. (mabye N) but it will all happen in time. Thanks to anyone who took their hard earned time to read a 15 year old's theorem
Click to expand...
Screenshot 2023-06-21 at 11.29.44.png
 
Benedict A55h0le said:
There was this dude who built a car that ran on water. He was viewed as mad but after he died they got hold of his water powered car and found it was not really water powered. The energy source was 2 coiled rings that tapped into zero-point energy.

"Zero-point energy refers to random quantum fluctuations of the electromagnetic (and other) force fields that are present everywhere in the vacuum; in other words, an 'empty' vacuum is actually a seething cauldron of energy."
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Meth so early in the morning I see or too much stargate.
 
Benedict A55h0le said:
Yes, Stargate show creators probably knew of and investigated zero-point energy, it is also present in Star Trek. I have not been able to find any sources trying to prove it not real.
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It is a prediction of actual quantum mechanics, which gives it a pretty high probability of being real. The problem is that you cannot really do any work with it.
 
There's a wikipedia article on this:
en.wikipedia.org

Zero-point energy - Wikipedia

en.wikipedia.org en.wikipedia.org
I'm not a physicist but an electrical engineer and I work with astrophysicists so I have a hotline to some nerds.
That being said, I'm not able to comment either way, except to say that it is not clear yet that this is a source of energy that could in fact be used.

That it exists, is without question. Whether it's useful even with technology far beyond our own, is doubtful.
 
newby_investor said:
There's a wikipedia article on this:
en.wikipedia.org

Zero-point energy - Wikipedia

en.wikipedia.org en.wikipedia.org
I'm not a physicist but an electrical engineer and I work with astrophysicists so I have a hotline to some nerds.
That being said, I'm not able to comment either way, except to say that it is not clear yet that this is a source of energy that could in fact be used.

That it exists, is without question. Whether it's useful even with technology far beyond our own, is doubtful.
Click to expand...
Energy cannot really be used for any work.

Linked the video previously, but anyone with a basic physics background can get a good understanding of the concept after watching this video:
 
So next week we'll probably hear about the magnetic field around the earth, with is huge untapped potential?
 
Not an expert or sciency guy, but my money is on this becoming the next big energy source.;)
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