If atoms of same element combine, we say that element is existing in its real state (or simply a molecule of that element is formed). If two atoms of different elements combine, a compound is formed.
Chemical reactions involve the combination, separation, or rearrangement of atoms. During those processes atoms are not subdivided, created, or destroyed.
Atoms can be ionized in chemical reactions when they gain or lose electrons. In some reactions, atoms may rearrange into different molecules or compounds. However, atoms are not destroyed or vaporized during chemical reactions; they are simply rearranged into different combinations.
This idea was proposed by John Dalton as part of his atomic theory in the early 19th century. Dalton suggested that atoms combine in fixed ratios to form compounds, and that during chemical reactions, atoms are rearranged but are not created or destroyed.
Some examples of chemical reactions that give out heat are combustion reactions (e.g. burning of wood), oxidation reactions (e.g. rusting of iron), and neutralization reactions (e.g. mixing an acid and a base). These reactions release energy in the form of heat due to the rearrangement of atoms and the breaking and forming of chemical bonds.
IT gains, looses, or shares outer electrons.
a molecule
Bonds are created when chemical reactions join atoms.
If atoms of same element combine, we say that element is existing in its real state (or simply a molecule of that element is formed). If two atoms of different elements combine, a compound is formed.
i think that in nuclear reactions but in normal reaction not created and destroyedAdded:No, never created or destroyed. Only in nuclear reactions some atoms may change in other atoms (by decay or fusion) but still not (totally) distroyed.
Chemical reactions involve the combination, separation, or rearrangement of atoms. During those processes atoms are not subdivided, created, or destroyed.
Atoms can be ionized in chemical reactions when they gain or lose electrons. In some reactions, atoms may rearrange into different molecules or compounds. However, atoms are not destroyed or vaporized during chemical reactions; they are simply rearranged into different combinations.
This idea was proposed by John Dalton as part of his atomic theory in the early 19th century. Dalton suggested that atoms combine in fixed ratios to form compounds, and that during chemical reactions, atoms are rearranged but are not created or destroyed.
Some examples of chemical reactions that give out heat are combustion reactions (e.g. burning of wood), oxidation reactions (e.g. rusting of iron), and neutralization reactions (e.g. mixing an acid and a base). These reactions release energy in the form of heat due to the rearrangement of atoms and the breaking and forming of chemical bonds.
Chemical reactions involve the rearrangement of atoms, not the production or destruction of atoms. The total number of atoms present before a reaction must be the same as the total number of atoms after the reaction is complete, due to the law of conservation of mass.
IT gains, looses, or shares outer electrons.
No, chemical reactions do not produce new atoms. Atoms are rearranged in chemical reactions to form new substances, but the number of atoms remains constant before and after the reaction. This is known as the Law of Conservation of Mass.
During chemical reactions atoms remain unchanged.