Ultraviolet waves have shorter wavelengths than Infrared waves. Since the relationship between wavelength and frequency is inversely proportional, UV waves have a much higher frequency than IR waves. IR waves have a frequency around 1012 Hertz, while UV waves' frequencies are around 1018 Hz. Thus, UV waves are more powerful than IR waves and can cause binds between molecules to break much more easily than IR waves.
Reactions that break apart large molecules are involved in catabolism. It is a type of metabolism that releases energy in the process.
This is a strong acid.
chemical
When an acid dissolves in water, the molecules of the acid break apart into ions. Specifically, the acid molecules donate protons (H+ ions) to the water molecules, resulting in the formation of hydronium ions (H3O+) and negatively charged ions from the acid. This process is called ionization or dissociation.
They break down
Reactions that break apart large molecules are involved in catabolism. It is a type of metabolism that releases energy in the process.
when sugar dissolves in water the sugar molecules are more attracted-to the water than each other.the molecules-break apart from each other and water molecules surround them.
They break apart rearrange and form new molecules.
chemical
heat shield
chemical
This is a strong acid.
big molecules break apart into small ones and reused to create something diferent
the temperature is as the molecules break apart from each other
strong acid
heat shield
When an acid dissolves in water, the molecules of the acid break apart into ions. Specifically, the acid molecules donate protons (H+ ions) to the water molecules, resulting in the formation of hydronium ions (H3O+) and negatively charged ions from the acid. This process is called ionization or dissociation.