may be electrons disappear from one shell when it receives it maximum energy and reappear at the other shell.
or
when the electrons receives it maximum energy it may convert into another form in band gap of an atom and again converted into its original form when it come it another shell which has fixed amount of energy...
Electrons can jump from one shell to another in an atom by absorbing or emitting energy in the form of photons. These transitions can occur even across forbidden zones under certain conditions, such as high energy input or external stimuli, resulting in electron movement between shells despite the energy level differences. This phenomenon is known as quantum tunneling.
Electrons can emit radio photons when they undergo acceleration or deceleration, causing their energy to change and emit energy in the form of radio photons. Photons are also emitted when electrons transition between different energy levels, as in atomic or molecular systems. So, photons are not only emitted by electrons jumping between energy levels, but also by their acceleration or deceleration.
It is predominantly the electrons on the outermost shell (valence electrons) of an atom that determine its reactivity with other atoms. These valence electrons are involved in forming chemical bonds with other atoms.
Neither of them are rare earth metals, meaning they they do not burst into flames when they come into contact with water. They do have different electronegativities, meaning that in the presence of an acid, one will accept the other's electrons (through a long chain of reactions), and are metals to allow easy conduction of electrons.
Ammonia (NH3) primarily exhibits hydrogen bonding interactions due to the presence of a lone pair of electrons on the nitrogen atom. This allows NH3 to form hydrogen bonds with other molecules that have hydrogen atoms capable of bonding with the lone pair of electrons on the nitrogen atom.
Valence electrons, which are the electrons in the outermost energy level of an atom, are available to form bonds with other atoms. These electrons are involved in the formation of chemical bonds.
When atoms are brought close together, as in a solid, the electrons come under the influence of forces from other atoms, where the energy level merges into bands of energy levels. There are two distinct energy bands in which electrons could exist: the valence band and the conduction band . Separating these two bands is an energy gap , termed the forbidden gap, in which electrons cannot normally exist.Avinash SinghJr. YSR (ISCA)Mech. Eng.KIIT UnivesityBBSR
When a charged object is brought close to an electroscope, the electrons in the metal rod of the electroscope are repelled by the like charge on the object. This causes the electrons to move to the leaves of the electroscope, causing them to repel each other and spread apart, indicating the presence of a charge.
Electrons flow easily through metals due to the presence of free electrons in the metal lattice. These free electrons are not bound to any particular atom and can move freely throughout the metal, allowing for efficient conduction of electricity.
Since the electrons are negatively charged and the nucleus is positively charged due to presence of protons, they attracted towards each other by the electrostatic force of attraction and thus electrons keep revolving around the nucleus and do not run away
I was going to include an other word in my answer but I've been forbidden from using it.
Oxygen has two unpaired electrons in its molecular orbital configuration, making it paramagnetic. On the other hand, sulfur does not have any unpaired electrons in its molecular orbital configuration, making it diamagnetic. The presence of unpaired electrons in oxygen makes it more attracted to a magnetic field compared to sulfur.
I don't know what you mean by comfirmation, but God can show his presence in many ways. Sometimes, you might feel really, really hot. Or other times, you might start dancing, jumping, screaming or something else just because you felt like it. I suggest you read your bible.
(apex!) the electronegativities of the two atoms are NOT equal.
A conductor allows electric current to flow easily due to the presence of free electrons that can move from atom to atom. An insulator, on the other hand, does not allow electric current to flow easily since it has a high resistance and does not have free electrons available for conduction.
my inability to go to other planets. and gravity
b. Tge practice of religions other than Islam was forbidden.
Electrons move through a conductor in one direction due to the presence of an electric field created by a voltage difference. This field exerts a force on the electrons, causing them to flow in the direction of lower potential. Additionally, the structure of the conductor, such as in a diode or semiconductor material, can allow electrons to move more freely in one direction than the other.