When + ion is formed whether electrons are shared or transferred ?
Answers
Answer: When + ion is formed , the electrons are TRANSFERED.
Explanation: when an ION is formed, one or more electrons are TRANSFERED from one atom to another. This creates a net charge on the two atoms. The atom that loses electrons becomes a CATION, while the atom that gains electrons becomes an ANION. The electrons are TRANSFERED due to following:
IONIC BONDING.
ELECTRON SHARING.
COVALENT BONDING.
IONIC BONDING: Ionic bonds are formed when one atom DONATES an electron to another atom. This creates a charged particle, or ion. The atoms then ATTRACT each other and form a BOND.
ELECTRON SHARING: Electron SHARING occurs , When two atoms form a COVALENT BOND, they share electrons in order to achieve a full OUTER SHELL. In contrast, when an ion is formed, one atom donates an electron to the other atom. This donation creates an imbalance between the number of protons and electrons, which gives the ion a charge.
COVALENT BONDING: METALLIC BONDING occurs when metal atoms SHARE electrons in order to achieve a full outer shell.
Explanation:
when an ION is formed, one or more electrons are TRANSFERED from one atom to another. This creates a net charge on the two atoms. The atom that loses electrons becomes a CATION, while the atom that gains electrons becomes an ANION. The electrons are TRANSFERED due to following:
IONIC BONDING.
ELECTRON SHARING.
COVALENT BONDING.
IONIC BONDING: Ionic bonds are formed when one atom DONATES an electron to another atom. This creates a charged particle, or ion. The atoms then ATTRACT each other and form a BOND.
ELECTRON SHARING: Electron SHARING occurs , When two atoms form a COVALENT BOND, they share electrons in order to achieve a full OUTER SHELL. In contrast, when an ion is formed, one atom donates an electron to the other atom. This donation creates an imbalance between the number of protons and electrons, which gives the ion a charge.
COVALENT BONDING: METALLIC BONDING occurs when metal atoms SHARE electrons in order to achieve a full outer shell.