Question

Plz tell me in spinning of electrons, it does not follow the newton's laws of motion. Why??

Answer 1

hey folk
here is ur answer
Almost always, the habits of the sub-atomic particles are not able to be described with the aid of Netwon's laws.

the fundamental snapshot of the Newtonian mechanics can be described as follows. There are particles, with particular positions and velocities, interacting with each other by way of forces. There are a couple of forms of forces in Nature. These forces can act between two particles, and their force and path rely upon the positions and the velocities of the particles. 2nd Newton's regulation connects between the forces acting on a particle and the ensuing acceleration. Skills of the positions and the velocities of all the central particles at a specified second of time allows to predict the positions and the velocities at some other time.
The laws which govern the behavior of the sub-atomic particles are totally different. It is impossible to assign a specified function and velocity to a particle. Each and every particle can also be in a superposition of unique states, which means that in some feel it's placed at the same time in a whole neighborhood of area and has a entire range of velocities. In the event you measure the role of the particle, you just get one of the crucial values from that variety, in random However, this isn't considering the particle surely HAD that position and you just hadn't identified that, but the particle quite HAD a whole variety of positions the second before the size. This is some thing unusual and attractive.
The capacity of the particle to be in a few unique states at the same time results in a famous wave-particle duality: the sub-atomic particles can behave like waves and exhibit interference. Consider we've got a particle source aimed in the direction of a wall with two slits where the particles can move, and a detecting monitor past this wall. First we allow the particles to pass simplest by means of one of the slits, after which most effective by means of the second. In a third test, the particles can cross though each the slits. When watching at the results, the outcome of the final experiment look to be entirely unrelated to the results of the first two. This happens on account that when particles are allowed to cross via both slits it's now not that some of them pass via the first slit and some of them by means of the second, but in some experience each particle passes through each of them. On the detecting display we see a image equal to 1 which is received from interference of waves.

that's why Newton' can not explain all these things . Newtonian mechanisms have nothing to deal with. I think his all laws and theory are wrong. The theory which is in a position to describe the sub-atomic particles is the Quantum Mechanics or u can deal with relativity but this works for higher dimensional objects. . The wave operate allows for to calculate the viable results of any measurement which may also be performed on the method. The development of the wave perform in time is described via Schroedinger's Equation given the initial wave operate and the so-known as Hamiltonian operator of the approach

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