Sharing of electrons in the outer energy level of two atoms results in a covalent bond.
The electrons and energy level are inversely related. Electrons are positively charged while the energy level is negatively charged which will result into a direct effect in the energy level when electrons move. .
A photon of light.
Spectral lines tell us how many different energy levels an atom has, and how far apart those energy levels are spaced. This is possible because spectral lines are the result of an excess (emission lines) or deficiency (absorption lines) of observed photons emitted from certain types of matter. The lines are caused by electrons moving between energy levels within individual atoms. Since each element emits it's own unique spectrum, this means that different types of atoms must have a distinct number of electrons in very particular energy levels.
When an atom absorbs a photon its energy is transferred to outer shell electrons. The result will be the transition of an electron to a higher energy state.
Electrons can exist only in certain allowed discrete energy states/ Photon absorption and emission are the result of transitions between energy states/ Electrons with more energy have orbits further from the nucleus
It is the result of a SHARING of electrons (not transfer of electrons).
its the result of unequal sharing of a pair of electrons
Yes it does.
In fact, the covalent bonds are made by sharing of two electrons in two atoms.
An electron may move to an electron shell farther out from the nucleus.
Perhaps, neutral particles arise when there are the same number of protons and electrons.
Covalent
A covalent bond is formed as a result of sharing electron pairs.
The sharing of electrons (equally or uneqally as in polar covalent bond.
No, a neutral particle that forms as a result of electrons sharing are called a molecule.
Cesium has the larger atomic radius, because it has electrons in 6 energy levels, whereas potassium has electrons in only 4 energy levels. As a result, cesium is the more reactive of these two alkali metals, because its valence electron is farther away from the nucleus, and thus easier to manipulate away from that atom to form an ion.
Covalent bonds form result from the sharing of electrons between 2 atoms. Thus, Ammonia NH3 is a covalent bond.