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The time-independent Schr
The time dependent equation is more general. The time independent equation only applies to standing waves.
Being a physicist I do not know too much about the applications. But in general the time dependent Schrodinger Equation tells us how a quantum state evolves in time. I believe this might be applicable to things like flash/thumb drives, and computers in general.
The equation for the average over time T is integral 0 to T of I.dt
You should substitute your solution in the equation. If the solution is correct you will receive equality. Otherwise your solution is wrong.
You have a contradiction in your question. Instantaneous acceleration is the acceleration at a certain moment in time. Average acceleration is the average over a time interval.
Erwin Schrodinger invented the model of the atom based on research done by scientists such as Niels Bohr.
If the coefficients of the linear differential equation are dependent on time, then it is time variant otherwise it is time invariant. E.g: 3 * dx/dt + x = 0 is time invariant 3t * dx/dt + x = 0 is time variant
Neils Bohr made the ASSUMPTION that electrons could only exist in discrete energy levels when the electrostatic field of a nucleus -- he made no attempt to show WHY this was so. Louis de Broglie postulated that electron movement could be described as a wave, with the wavelength being equal to Planck's Constant divided by the electron's momentum. Starting with this postulate, one can derive that the only permitted radial orbits of an electron are those with a circumference equal to a multiple of these wavelengths. Erwin Schrodinger devised a mathematical formula for which one could derive these energy levels -- and a lot more. As such, Schrodinger's Equation was more fundamental to our understanding of sub-atomic reality. Schrondinger viewed his wave function (more precisely, the product of the wave function) as the charge density of a smeared-out electron. Although you didn't ask, it was Max Born who showed that the wave-function product was, instead, the probability of finding a point-like electron at a specific place and time.
Speed = distance/time. From this equation you can derive the equation for time, such that time = distance/speed. Therefore,333mi/60mi/h = 5.55h.To convert .55h into minutes, multiply .55h x 60min/h = 33min.So, at 60mi/h, it will take 5h and 33min to travel 333mi.
Time dependent forces are simply forces that change with time.
velocity=distance / time