This thread is intended to provide a space for 'crazy' ideas. Ideas that spontaneously come to mind (and feel great), ideas you long wanted to tell but never found the place and time for and also for ideas you think should be obvious and simple - but nobody ever mentions them.
This thread itself is such an idea. Or rather the tangent of such an idea which I post below as a seed for this thread.
Rules for this thread:
- Each crazy idea goes into its own top level comment and may be commented there.
- Voting should be based primarily on how original the idea is.
- Meta discussion of the thread should go to the top level comment intended for that purpose.
If this should become a regular thread I suggest the following :
- Use "Crazy Ideas Thread" in the title.
- Copy the rules.
- Add the tag "crazy_idea".
- Create a top-level comment saying 'Discussion of this thread goes here; all other top-level comments should be ideas or similar'
- Add a second top-level comment with an initial crazy idea to start participation.
I have a cluster of related physics ideas that I'm currently trying to work out the equations for. For the record, I am not a physicist. My bachelors is in computing specializing in cognitive science, and my masters is in computer science, with my thesis work on neural networks and object recognition.
So with that, my crazy ideas are:
That the invariant rest mass is actually temporal kinetic energy, that is to say, kinetic energy that moves the object through the time dimension of spacetime rather than the spatial dimensions. This is how come a particle at rest is still moving through time.
The relationship between time and temporal energy is hyperbolic. The more temporal kinetic energy you have, the more frequently you appear in a given period of time (a higher frequency of existence according to E = hf). A photon, which has no mass, according to relativity, doesn't experience the passing of time, and hence moves through space at exactly the speed of light. This can be shown by calculating out the proper time interval (delta t0 = delta t sqrt(1-v^2/c^2)). An object travelling at the speed of light experiences a proper time interval of 0. So from the relative "perspective" of a photon, it actually seems like travel to any distance is instantaneous.
Now, consider a motionless black hole (a perfect blackbody), which can be defined entirely by its mass, and the photon gas (blackbody radiation) that is the Hawking radiation produced by the black hole. Together these can be defined as the simplest closed thermodynamic system. As the black hole emits the photon gas, it decreases in mass, suggesting that the mass aka the temporal kinetic energy can be converted into spatial kinetic energy, which is essentially what a photon is a packet of. When a black hole consumes a photon and increases in mass, the reverse process occurs.
Also, gravity is proportional to the entropy density at a given region of spacetime. A black hole for instance has infinite entropy density, while a photon has essentially none. The reason why gravity appears so weak compared to electromagnetism is because much of the force of gravity is spread throughout the temporal dimension and effects things moving at different temporal velocities, while the electromagnetic force affects only things moving at the same temporal velocity.
At least some dark matter may in fact be normal baryonic matter that is travelling through time at a different temporal velocity than we are.
Neutrinos may actually be the temporal kinetic equivalent of photons, and the reason why the expansion of the universe seems to have started accelerating 5 billion years ago is because that was when the sun formed and the neutrino emissions of the sun have caused a small steady acceleration in the temporal velocity of the solar system relative to the cosmic background radiation.
No, neutrinos have all sorts of different properties than protons (spin-1/2, three generations, take part in weak interactions) regardless of their energy-momentum.