Bonding help atoms in achieving inert gas configuration. It enhances the stabiliy.
Bonding help atoms in achieving inert gas configuration. It enhances the stabiliy.
Radioisotopes.
An isotope is unstable because isotopes are only atoms with a change in the number of neutrons. For an atom to become stable, it should have the maximum number of electrons it can have in its outer most shell, but since isotopes only deal with neutrons, this problem is not dealt with in this case. When there is a change in the number of electrons, it is called a ion. It can become stable through ionic bonding, covalent bonding and metallic bonding, depending on the two elements that are meant to bond.
Unless it is an element that has a full valence shell naturally - like neon, krypton, etc. - atoms are incredibly unstable. When a compound is formed the atoms either share or exchange electrons in order to completely fill their valence shells. Unless it is an element that has a full valence shell naturally - like neon, krypton, etc. - atoms are incredibly unstable. When a compound is formed the atoms either share or exchange electrons in order to completely fill their valence shells.
Yes, unstable atoms can become stable by emitting excess energy in the form of ionizing radiation such as gamma rays, alpha particles, or beta particles. This process helps the atom achieve a more stable configuration by releasing the excess energy stored in its nucleus.
When two atoms come near each other, sometimes they stick together to make a molecule. One way they can stick together is by covalent bonding. In covalent bonding, the atoms are unstable because their outer rings of electrons aren't filled up. By sharing electrons with other atoms, these atoms can fill up their outer rings and become stable.
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.
Atoms cannot exist independently because all atoms strive for a full outer shell of electrons through bonding with other atoms. Molecules can exist independently because they are stable structures formed from atoms through covalent or other types of bonding. This bonding enables molecules to have a stable arrangement of atoms.
share electrons to form a stable outer electron configuration. This sharing allows the atoms to fill their outer electron shells and become more stable. Covalent bonding occurs between nonmetal atoms.
The mass of unstable atoms can vary widely depending on the specific isotope and the decay process involved. Unstable atoms typically have a higher mass compared to stable atoms due to the presence of excess energy or additional subatomic particles. When unstable atoms undergo radioactive decay, they can transform into more stable elements by emitting particles and energy.
Atoms that are unstable are more likely to be radioactive than atoms that are stable. This means they can emit radiation in the form of alpha or beta particles, or gamma rays, in order to reach a more stable state.
Atoms become stable by gaining or losing electrons to achieve a full outer electron shell. This involves forming bonds with other atoms to share or transfer electrons. Once the outer shell is full, the atom is more stable and less likely to react with other atoms.