I am sure you are all aware of the Schrodinger equation.
The Hamiltonian is included in this equations, which contains the Kinetic energy operator. When Schrodinger wrote thi he converted momentum to the unit imaginary number, the reduced Planck constant and the Delta operator.
My...
So what else would be included. The energy of the photon would be the resting energy of electron and positron plus there kinetic energy? What else comes into it?
What about in a vacuum, a pair production without an atom?
In pair production, what is the formula for the energy of an electron or positron of this conversion.
Also, what is the wavelength of a photon that can create an electron positron pair.
I have an ear infection and it is chronic. I went to my doctor and he prescribed some drops. I have put these in at the morning and lunch. Now, at night, my ear has swollen canal has swollen shut and the pain is intense and I can't hear, what should I do.
Two questions
Both of these occur in a vacuum:
If a photon has the exact energy to electron-positron pair product, since the electron and the positron are the same mass, if stationary would have an energy of Mc^2. Since they are moving would there energy be (of one fermion)...
I am currently looking at a diagram of a top and anti top decay. The anti top decays into a weak boson and an anti bottom and the weak then decays into an electron and electron anti-neutrino. On the other side the top decays into a H+ particle and a bottom.
What is this H+ particle, is it...
(move this to my other question please)
As Einstein said that time slows down relative to velocity and he also said that all frames are equally important, then how is the following correct.
If I were in a rocket traveling away from Earth at a distance of V and the Earth was the frame of...
A lightyear is a measurement of distance of how far light travels in a year relative to our time frame, correct?
Well, how far does light travel if-hypothetically- it had thought and could determine time. As if I were to travel at light speed for a year it may feel like a second. But, iff I...
Einstein said that all frames are equally important.
Now, assume that I (or body A) was moving at a velocity of V. If body B was considered to be stationary and I was traveling away from it at a high speed then my time would slow down. This I understand.
But...
If body A was the inertial...
None.
What I mean is: Is there any evidence apart from the fact that it fits in combining the two main theories. Is there any observations that agrees with the theory?