To achieve electronegative stability.
The atoms rearrange and the new bonds form to make the new substances.
It comes from light. Light energy is absorbed
Yes, when particles collide with enough energy, atoms can rearrange, leading to chemical reactions or the formation of new substances. This high-energy interaction can break existing bonds and allow atoms to recombine in different configurations. Such rearrangements are fundamental to various processes, including combustion, metabolism, and nuclear reactions.
In a chemical change, the atoms themselves remain intact; however, they can rearrange and bond with other atoms to form new substances. This process involves the breaking and forming of chemical bonds between atoms, but the atoms themselves are not irregular in structure.
When atoms of the reactants unbond, rearrange, and then rebond to form new substances, this is a chemical reaction. In a chemical reaction, the identities of the reactants change as they form new products, which involves breaking and forming chemical bonds. In contrast, physical changes do not alter the chemical composition of the substances involved.
You can't.
They break apart rearrange and form new molecules.
they rearrange to form products
During a chemical reaction, the atoms of the starting substance rearrange to form new substances. The atoms themselves are not created or destroyed, but they may bond in new combinations resulting in different molecules.
The atoms rearrange and the new bonds form to make the new substances.
The atoms rearrange and the new bonds form to make the new substances.
The atoms rearrange and the new bonds form to make the new substances.
The atoms rearrange and the new bonds form to make the new substances.
It comes from light. Light energy is absorbed
No. In a combustion reaction, or any other chemical reaction, the atoms only rearrange how they are bonded with each other.
physical change
Yes.