because electons make an magnatic field makes the attraction of each electorn to other whether they are of same charge but because of magnatic field they perfom as opposite and attract each other thats why they easly revolve in nucleus
No, electrons do not revolve around the nucleus of an atom in perfect circular orbits. Instead, they exist in certain regions around the nucleus called orbitals, which describe the probability of finding an electron in a specific area. The behavior of electrons is better understood using quantum mechanics rather than classical mechanics.
generally in normal condition it is possible, but it is effected by environmental changes like temperature, pressure, humidity etc.....also when a heavy nucleus comes within the range of revolving nucleus its speed changes according to its parameters.
The nucleus and the electron both revolve around a common center of charge. The only atom with equal charge in both places is hydrogen. Every atom heavier than hydrogen has more charge in the nucleus than there is on an electron. By the time you get to uranium, there is more than 90 times as much charge in the nucleus as there is on an electron, so the common center of charge is many times farther from each electron than it is from the nucleus. Also, each nuclear particle ... each proton and neutron ... is almost 2000 times more massive than an electron, and the same argument applies to the center of mass in the case of orbits governed by gravitational force, such as the solar system. But in the atom, the electrical forces completely dominate over the gravitational forces (by something like 1040.)
the electrons revolve around the nucleus which is in the center of the atom, they revolve around it in 7 imaginary energy levels.
In energy shells around and outside the nucleus of an atom!!!!
No, neutrons do not revolve around the nucleus. Protons and neutrons reside in the nucleus of an atoms. Electrons revolve around the nucleus. Beta emission the release of electron form the nucleus. Alpha emission is the emission of helium atom.
There is no force to stop it either. It has energy.
The electron is most likely to be found in the electron cloud surrounding the nucleus of an atom, rather than inside the nucleus. The nucleus contains protons and neutrons, while electrons are located in the electron orbitals outside the nucleus.
Electrons revolve around the nucleus of an atom.
You can imagine the electrons as being in a similar situation as the planets that circle the Sun. The centripetal force is the attraction by the Sun (for planets), and by the nucleus (for electrons). Remember that opposite forces attract each other. Actually the situation is more complicated, due to certain quantum phenomena, but this should give you a general idea. Specifically, electrons are not free to travel in any orbit - they can't have just any energy, they can only be at very specific energy levels.
the way you look that direction is correct..it is only one model to explain..
nuetrons and protons make up the nucleus, Electrons revolve around the nucleus
Electrons revolve around the nucleus. A revolving electron is equivalent to a current loop. Hence, it produces a magnetic moment.
No, electrons do not revolve around the nucleus of an atom in perfect circular orbits. Instead, they exist in certain regions around the nucleus called orbitals, which describe the probability of finding an electron in a specific area. The behavior of electrons is better understood using quantum mechanics rather than classical mechanics.
generally in normal condition it is possible, but it is effected by environmental changes like temperature, pressure, humidity etc.....also when a heavy nucleus comes within the range of revolving nucleus its speed changes according to its parameters.
The nucleus and the electron both revolve around a common center of charge. The only atom with equal charge in both places is hydrogen. Every atom heavier than hydrogen has more charge in the nucleus than there is on an electron. By the time you get to uranium, there is more than 90 times as much charge in the nucleus as there is on an electron, so the common center of charge is many times farther from each electron than it is from the nucleus. Also, each nuclear particle ... each proton and neutron ... is almost 2000 times more massive than an electron, and the same argument applies to the center of mass in the case of orbits governed by gravitational force, such as the solar system. But in the atom, the electrical forces completely dominate over the gravitational forces (by something like 1040.)
there is a force of attraction between the positive nucleus and each negative electrons, and this force is counterbalanced by one that is determined by the orbital motion of the electron.