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Unlike sodium and chlorine some atoms become more stable by sharing what?
Some atoms become more stable by sharing electrons. This type of chemical bonding is known as covalent bonding, where atoms share pairs of electrons to achieve a full outer shell and increased stability.
All atoms become stable when they have how many valence electrons?
Atoms become stable when they have a full outer electron shell, which typically means having 8 valence electrons (except for hydrogen and helium, which are stable with 2 valence electrons). This stable configuration is known as the octet rule.
Why do atoms loan electrons to other atoms?
To become stable. Without the sharing or "loaning" of electrons atoms would become very reactive. Pure sodium put into water would explode, but when sodium is combined with Chlorine, it produces Sodium Chloride (NaCl) otherwise known as common table salt.
When atoms of different elements share electrons they form?
a chemical bond known as a covalent bond. In a covalent bond, atoms share electrons in order to achieve a stable electron configuration. This sharing of electrons allows atoms to fill their outer electron shells and become more stable.
Why do atoms share gain or lose electrons?
Atoms share, gain, or lose electrons in order to achieve a stable configuration, usually a full valence shell. This is known as the octet rule. By doing so, atoms can attain lower energy levels and become more stable.
Why some atom lose or gain electrons to become ions but noble gas atom never become ion?
Atoms lose or gain electrons to become ions in order to achieve a stable electron configuration, typically through having a full outer shell. Noble gas atoms already have a full outer shell, making them stable and unlikely to gain or lose electrons to become ions. This is known as the octet rule.
What is the process of losing or gaining electrons to become stable?
Losing or gaining electrons is known as ionization, a process that occurs when an atom gains or loses electrons to achieve a stable electron configuration. Atoms tend to lose or gain electrons to achieve a full outer shell, following the octet rule. This process forms ions, which are electrically charged particles.
How many electrons are called are needed in the outer energy level of most atoms for the atom to be stable?
Most atoms are stable when they have a full outer energy level, which typically consists of 8 electrons. This is known as the octet rule. However, some smaller atoms, such as hydrogen and helium, are stable with only 2 electrons in their outer energy level.
What do atoms want to have for their outer energy level?
Atoms want to have a full outer energy level of electrons, typically either 2 or 8 electrons, to become stable. This is known as the octet rule, in which atoms tend to gain, lose, or share electrons to achieve a stable electron configuration like the noble gases.
What form chemical bonds to satisfy the rule and to become .?
Atoms form chemical bonds by sharing, gaining, or losing electrons to achieve a more stable electron configuration. This is known as satisfying the octet rule, where atoms seek to have a full outer electron shell like the noble gases. By forming bonds, atoms can attain this stable configuration and become more chemically stable.
How many valence electrons do most atoms need to have a complete outer Shell and be happy?
Most atoms need eight valence electrons to have a complete outer shell and achieve a stable, "happy" state, a concept known as the octet rule. However, there are exceptions, such as hydrogen and helium, which are stable with just two valence electrons. Atoms tend to gain, lose, or share electrons to reach this stable configuration.
What number of valance electrons creates a stable arrangement for most atoms?
Most atoms achieve a stable arrangement with eight valence electrons, a configuration known as the octet rule. This stability often occurs through bonding with other atoms, allowing them to either gain, lose, or share electrons to reach this desired state. However, exceptions exist, such as hydrogen and helium, which are stable with just two valence electrons.
