Wow, a new theory of gravitation?
Physical Review Letters, a journal of The American Physical Society.
http://prl.aps.org/
Chances are that if you don't know this, you are outside the mainstream of science.
Newton invented calculus and came up with the original law of gravitation which is still very accurate. Einstein wrote his laws of gravitation in a theory called Relativity. Einstein's theory
was so very precise that in order to prove it, the extremely slight bending of light as it went
past the sun (coming from a distant star toward Earth) had to be measured (during an eclipse)
...something which took many years before actually validating his work. However, his theory
also predicted the odd orbit of Mercury, ...something which Newton's theory did not.
My understanding is that currently String theory may be the best explanation of things. But
without a handle on advanced math this is beyond the critique of the average layman.
If you do have an alternative theory, it should include a means of verification. Your equations
should be specific and yield precise answers. Einstein knew he was right when his equations
precisely indicated the path of Mercury. A theory in science is not just an idea or concept or
a guess, but something which can be tested. Even after being found to be true it is often
still called a theory, perhaps because the original author called it that.
If you do not understand the math or the work of other scientists such as Einstein and Newton it would be hard to imagine that you would be able to correct their works. Einstein
placed us in a 4-dimensional space by including time a a dimension. You see, a foot is about
the same as a nano-second (one billionth of a second) and so instead of a point (measured
as length width and height or x,y,z, from some arbitrary starting point) being separated from
another point by distance, ...by adding time to this (using light as a measureing rod, ...which
in essence measures either a distance or a period of time by it's length) the old notion of a
place (three dimensions) was upgraded to an event (which is a place at a particular time) and
so now instead of a distance between places (points) we have events separated by intervals.
This four-dimensional framework is distorted by the presence of mater. The light going past
the sun from a distant star is not really bent (as I mentioned above) but is actually going in
a straight line (a beam of light pretty much defines what a straight line is in our real world)
and so it is the so-called distortion of space caused by the mass of the sun which causes the
perceived effect. This had to be measured very precisely (only possible during an eclipse) by
noting the relative positions of the stars (on film) and how their positions were changed from
what would be expected as they were nearly aligned with the sun. Sort of like how an object
would seem to move as glass of water was placed in the path from observer to object.
Well, good luck to you. I would suggest having a look at the Super String site:
http://www.superstringtheory.com/
to see what is currently being contemplated.
F. Davies
Wikipedia has an article, "List of physics journals". Perhaps one of those might consider your ideas to be worthy of publication, if it's really something noteworthy.
Important properties of quantum mechanics include wave-particle duality, superposition, and entanglement. Wave-particle duality suggests that particles can exhibit both wave-like and particle-like behavior. Superposition refers to the ability of quantum systems to exist in multiple states simultaneously. Entanglement describes the phenomenon where the states of two or more particles become correlated and cannot be described independently.
transition of a charged particle between energy levels.
It's really difficult to select one from the list of choices that you submitted along with your question. We can only surmise that the speed of a 'following' particle might be the same or less than that of a leading particle.
Subatomic particle
A colloid is not a subatomic particle.
The Higgs Field has nothing to do with quantum entanglement. Quantum Entanglement is the phenomena that, when a particle decays into two particles, they travel in separate directions. When one particle is observed to be spinning in one direction, then we will immediately know that the other particle is spinning in the opposite direction. However, neither particle is spinning until it is observed, yet the other particle suddenly "decides" which way it is spinning as soon as the first is observed. Particles interacting with the Higgs Field (all of the particles that exist interact with the Higgs Field) simply take on mass, which depends on the strength of the interaction with the field. If a particle decays, then it will decay into a particle-antiparticle pair. Since all particles and their antiparticle counterparts have the same mass, there is no entanglement.
Quantum teleportation, or entanglement-assisted teleportation, is a technique used to transfer information on a quantum level, usually from one particle (or series of particles) to another particle (or series of particles) in another location via quantum entanglement. -http://en.wikipedia.org/wiki/Quantum_teleportation#General_teleportation_scheme
Important properties of quantum mechanics include wave-particle duality, superposition, and entanglement. Wave-particle duality suggests that particles can exhibit both wave-like and particle-like behavior. Superposition refers to the ability of quantum systems to exist in multiple states simultaneously. Entanglement describes the phenomenon where the states of two or more particles become correlated and cannot be described independently.
transition of a charged particle between energy levels.
It's really difficult to select one from the list of choices that you submitted along with your question. We can only surmise that the speed of a 'following' particle might be the same or less than that of a leading particle.
The world's largest particle accelerator is used to accelerate particles to extremely high energies at which they can undergo collisions which, it is hoped, will produce previously unseen kinds of results which will shed light on currently mysterious or unanswered questions about particle physics, thereby increasing human knowledge and our understanding of the way the universe works on a very deep, fundamental level.
In the book "The Golden Compass" by Philip Pullman, Dust refers to a mysterious elementary particle that is conscious and can interact with human beings. It represents knowledge, consciousness, and original sin in the story.
They pass from particle to particle by vibrating the particle. When the particle touches another particle, it transfers the sound energy to that particle. Hence the Sound Wave.
They pass from particle to particle by vibrating the particle. When the particle touches another particle, it transfers the sound energy to that particle. Hence the Sound Wave.
This particle is called electron.
A positively charged particle that is also a beta particle is a Positron.
Particle Man, Particle Man, doing the things a particle can.