yes(: of course
they are attracted to each other opposites attract in tight spaces
process of unstable atoms trying to become stable by emitting energy that is at a level high enough to ionize
when are atoms are more stable existed at a lower energy state in a combined form
Yes, the outermost energy level of the atoms of the noble gases are filled, meaning that they have the maximum number of electrons. This is why noble gases are stable and unreactive. The atoms of reactive elements share or transfer electrons in order to fill their outermost energy levels, making them stable like the noble gases.
A completley filled out electron level makes the atom stable
To become stable. When the outermost energy field is filled to maximum electrons, the atom is stable.
they are attracted to each other opposites attract in tight spaces
They share their valence electrons
process of unstable atoms trying to become stable by emitting energy that is at a level high enough to ionize
No. They combine when the compound is more stable. Any system will tend to go toward a more stable state. If a molecule is less stable than the individual atoms there is a good chance it will fall apart.
Eight electrons, called an octet, are needed by most atoms in order to be stable.
A stable atom has 8 electrons in its outer most valence shell. A simple way to remember this is that all atoms want to be like the noble gases which all have 8 electrons (except helium but the reason is complicated and not necessary here)
The most stable atoms/ions have 8 electrons in their outermost shell.
Most atoms require eight electrons in the outer shell to be stable. The exception is atoms that are only filling the s1 orbital, which becomes stable with only two electrons.
when are atoms are more stable existed at a lower energy state in a combined form
Ionizing radiation is produced by unstable atoms. Unstable atoms differ from stable atoms because they have an excess of energy or mass or both.
bond formation is an energy releasing process. the chemically bonded atoms are more stable than the separated atoms. gain in stability is always accompanied by a decrease in energy. besides, the opposite process, bond breaking requires energy to break the attraction between the bonded atoms.