Planck Time? Why does it exist?

In summary: But if you had a sequence of dots that were limited to a finite amount, it would appear as a series of dots.In summary, quantum mechanics states that there are limits to what we can measure. This has lead to the conclusion that the universe may be pixelated both in space and in time with Planck length the limit for space measurement and Planck time the limit for time.
  • #1
Slem
12
0
I've recently heard of Planck Time.. I read that it is the minimum time interval that can EXIST. What exactly changes in time intervals that are less than Planck time? And if I am not mistaken by the meaning of Planck Time; What is the reason that there is such a limit?
For Example, the universal speed limit of light exists because you ll simply require infinite energy to accelerate an object enough to reach the speed of light, which is impossible. SO , in the case of Time, what infinite quantity is required to measure below Planck Time. ( I do realize that I am most likely mistaken about my understanding of Planck Time).

And while you re at it , I ve also heard of Temperature limit, that objects cannot get hotter than that limit .. Or that physical laws change after that limit, again , why does such a limit exist in the first place? Please , enlighten me.
Thanks in advance .
 
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  • #2
I don't even understand this stuff myself, but I'll try to help out a bit. A Planck length is essentially the smallest distance that two things can be apart from each other without being in the same place. (Maybe like proton packing in a nucleus. edit: neutrons in a neutron star would be a better example.) Planck time is the time that it takes light to traverse that distance.
 
  • #3
Planck time is like motion picture time. When we see a film, it is shot in say 30 frames per second where each frame would represent a time unit. Its not continuous but it appears so when played.

Quantum Mechanics places limits of what we can measure and this has led physicist to conclude that perhaps the universe is pixelated both in space and in time with Planck length the limit for space measurement and Planck time the limit for time. Movement of a particle thru space and time would appear as a sequence of dots not as a continuous line if plotted.
 
  • #4
Danger said:
I don't even understand this stuff myself, but I'll try to help out a bit. A Planck length is essentially the smallest distance that two things can be apart from each other without being in the same place. (Maybe like proton packing in a nucleus. edit: neutrons in a neutron star would be a better example.) Planck time is the time that it takes light to traverse that distance.

It does make a bit more sense now, since light speed is the limit, and there is a limit to how close two thingscan be to each other. Then a time limit would make sense. But then again , why does Planck length exist. I assume that two objects can keep getting closer and closer Forever!
 
  • #5
From Wikipedia:
"The physical significance of the Planck length is a topic of research. Because the Planck length is so many orders of magnitude smaller than any current instrument could possibly measure, there is currently no way of probing this length scale directly. Research on the Planck length is therefore mostly theoretical. According to the generalized uncertainty principle, the Planck length is in principle, within a factor of order unity, the shortest measurable length – and no improvements in measurement instruments could change that.
In some forms of quantum gravity, the Planck length is the length scale at which the structure of spacetime becomes dominated by quantum effects, and it would become impossible to determine the difference between two locations less than one Planck length apart. The precise effects of quantum gravity are unknown; often it is suggested that spacetime might have a discrete or foamy structure at Planck length scale."

That would mean then that Planck Time is the shortest MEASURABLE time interval, not absolutely shortest. IN this case , it does all make sense.
 
  • #6
jedishrfu said:
Planck time is like motion picture time. When we see a film, it is shot in say 30 frames per second where each frame would represent a time unit. Its not continuous but it appears so when played.

Quantum Mechanics places limits of what we can measure and this has led physicist to conclude that perhaps the universe is pixelated both in space and in time with Planck length the limit for space measurement and Planck time the limit for time. Movement of a particle thru space and time would appear as a sequence of dots not as a continuous line if plotted.

But That would mean that a curve length is made up of A FINITE amount of dots. Which kind of isn't the way i understand Calculus .
 
  • #7
Slem said:
That would mean then that Planck Time is the shortest MEASURABLE time interval, not absolutely shortest. IN this case , it does all make sense.

That's a sticking point for me as well. By my thinking, two events of one Planck time interval each, occurring out of phase with each other, would result in a 1/2 Planck time interval between them. At that point, I quit paying attention. :redface:
 
  • #8
Slem,

The Plank length is, as I believe you have come to understand, the smallest MEASURABLE length (probably) but it is NOT the smallest length (well, it MIGHT be, but that is currently unknown).

The Plank time is the time for light to travel one Plank length, but it is NOT believed to be the smallest time, if there is such a thing. It has been hypothesized (here on this board as I recall) that if time is quantized, the quanta is MUCH smaller than a Plank time.
 
  • #9
phinds said:
The Plank time is the time for light to travel one Plank length, but it is NOT believed to be the smallest time, if there is such a thing. It has been hypothesized (here on this board as I recall) that if time is quantized, the quanta is MUCH smaller than a Plank time.

Thanks, so basically the definite answer to my question, is practically still unknown.
By the way, do you happen to know the answer to Why there exists a universal Temperature Limit?
 
  • #10
Mathematically, dimensional space is internally infinite. Imagine it simply as a ball being shrunk down to size, indefinitely. Physically, however, we assume that Planck length is the smallest unit of length, simply because physicists hate infinity. Kaku would tell you that on the results of formula's concerning singularities.
 
  • #11
Trollegionaire said:
Mathematically, dimensional space is internally infinite. Imagine it simply as a ball being shrunk down to size, indefinitely. Physically, however, we assume that Planck length is the smallest unit of length, simply because physicists hate infinity.

haha That is what I've come to realize.
 
  • #12
Slem said:
By the way, do you happen to know the answer to Why there exists a universal Temperature Limit?

I've never heard of such a thing. Do you have a legitimate reference for such?
 
  • #13
phinds said:
I've never heard of such a thing. Do you have a legitimate reference for such?

It is Planck Temperature.
http://en.wikipedia.org/wiki/Planck_temperature

I kind of understand it though, since kinetic energy equals m*V^2 and V has a limit of c , light of speed , then kinetic energy of an object has a maximum. Thus , temperature has a maximum
 
  • #14
Slem said:
It is Planck Temperature.
http://en.wikipedia.org/wiki/Planck_temperature

I kind of understand it though, since kinetic energy equals m*V^2 and V has a limit of c , light of speed , then kinetic energy of an object has a maximum. Thus , temperature has a maximum

Interesting. Thanks. I see that according to Wiki, this is not yet known to be fundamentally a limit and might change, but it makes sense as stated.
 
  • #15
Seems to me that as the particles approach c their energy increases without bound (old way of thinking is mass increase). There is no upper limit on that, so temperature (kinetic energy) goes up with the mass/energy increase.
With quantum gravity, unknown effects might come into play as the individual particles' mass/energy magnitudes increase enough that mutual gravitation becomes a significant influence, so who knows?
 
  • #16
bahamagreen said:
With quantum gravity, unknown effects might come into play as the individual particles' mass/energy magnitudes increase enough that mutual gravitation becomes a significant influence, so who knows?

Oh physics, i love you...
 
  • #17
There is a huge amount of misinformation in this thread. If people don't know what they are talking about, it's not necessary to chime in. Really.

Planck units are just units, like fortnights and hogsheads, or meters and grams. Because their definitions contain both h and G, often when you are near one Planck unit, quantum gravitational effects are likely to be important. Because "near", "likely" and "important" are fuzzy concepts, this is a fuzzy statement. It is, however, absolutely not the case that the Planck units represent some sort of minimum or maximum: one Planck resistance is about 30 ohms, and both larger and smaller resistances are commonplace.
 

1. What is Planck Time?

Planck Time is the smallest unit of time that has any physical meaning. It is the time it takes for light to travel a distance of one Planck length in a vacuum, which is approximately 5.39 x 10^-44 seconds.

2. How was Planck Time discovered?

Planck Time was first introduced by German physicist Max Planck in 1899 as part of his research on quantum mechanics. He used it as a fundamental constant to explain the behavior of particles at the atomic and subatomic level.

3. Why is Planck Time important?

Planck Time is important because it is the smallest unit of time that our current understanding of physics can describe. It is also used as a basis for other fundamental constants, such as Planck Length and Planck Mass.

4. Can Planck Time be measured?

No, Planck Time is so small that it is beyond our current technological capabilities to measure it. It is also believed that at this scale, the laws of physics as we know them break down, making measurement impossible.

5. Why does Planck Time exist?

The existence of Planck Time is a fundamental part of our understanding of the universe. It is a result of the combination of three of the most important theories in physics - quantum mechanics, general relativity, and the theory of relativity. It helps us better understand the behavior of particles at the smallest scales and is crucial in our search for a unified theory of physics.

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