Can Movement and Heat Unlock the Secrets of Time Travel?

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SUMMARY

The discussion centers on the relationship between movement, heat, and molecular motion, particularly in the context of time travel theories. Participants clarify that heat is the random motion of molecules, which continues even when an object is stationary. The conversation highlights that moving an object does not significantly alter the random motion of its molecules, explaining why rapid movement does not generate noticeable heat. Additionally, the impact of external forces, such as a whip, on molecular motion and the body's biological response is examined.

PREREQUISITES
  • Understanding of molecular motion and thermodynamics
  • Basic knowledge of kinetic energy and heat transfer
  • Familiarity with the principles of time travel theories
  • Awareness of biological responses to physical stimuli
NEXT STEPS
  • Research the laws of thermodynamics and their implications on molecular motion
  • Explore kinetic energy and its relationship with heat generation
  • Study advanced theories of time travel, including relativity and quantum mechanics
  • Investigate the physiological responses of the human body to external forces and pain
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Students of physics, enthusiasts of theoretical physics, and individuals interested in the scientific principles behind heat, movement, and time travel concepts.

Bugge
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Now, I am very dull, but something that has made me ponder for quite some time is movement and how you define it. As I've understood the movement of the atoms is what can make an object feel cold or warm or maybe even painful, and when you drop an icecube in a cup of water it will cool down because the atoms of the icecube attracts the heat or stops the movement of the surrounding water atoms (Well, maybe not exactly, but I am not very sure how to explain it, and even less sure if I am right). Is this somewhat partially correct? If it is, how come when you run or move something very fast, that very little heat is generated? I mean, since movement is the same as atoms being moved around, should the heat generated not be much more noticeable?

Also, I posted a topic long ago about timetravel, and I just checked it. I have been unable to answer it until recently - all thanks to our excellent ISP. I'd like to say thank you for your answers, and there was some pretty interesting links. Way over my head, but the little pieces I understood so far has been very helpful.

Thanks in advance :-)


Bugge
 
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Bugge said:
If it is, how come when you run or move something very fast, that very little heat is generated? I mean, since movement is the same as atoms being moved around, should the heat generated not be much more noticeable?
'Heat' is the random motion of molecules. An object sits motionless on a table, yet its molecules are in constant motion. If you increase its temperature, the random motion becomes faster.

But just moving something as a whole does not affect the random motion of its molecules.
 
Thank you for the simple answer :-) But if you get a whip over your fingers, for instance, it will feel warm (And quite painful aswell) for quite some time. Is this affecting the random movement of the molecules then, or is it just a "response" from your body?
 
Bugge said:
But if you get a whip over your fingers
What do you mean?
 
Bugge said:
But if you get a whip over your fingers, for instance, it will feel warm (And quite painful aswell) for quite some time. Is this affecting the random movement of the molecules then, or is it just a "response" from your body?
Assuming that you mean your fingers are hit by a whip, then some of the energy of the whip will end up going into random thermal motion of your fingers. But what you feel is mainly a biological response.
 
Exactly what I meant. Sorry, I keep mixing Danish and English together. Thanks for the answer :-)


Bugge
 

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