Functional groups are responsible for chemical reactions of molecules.
The functional groups present in a molecule determine its chemical reactivity by affecting how the molecule can interact with other molecules. Functional groups contribute specific chemical properties, such as polarity or reactivity, which influence the types of reactions the molecule can undergo. The presence of functional groups can determine the types of bonds that are formed or broken during a chemical reaction.
Three water molecules are formed when a glycerol molecule combines with three fatty acid molecules in a condensation reaction. Each fatty acid molecule contributes a water molecule when it reacts with the glycerol molecule to form a triglyceride.
it determines how the molecule functions
it determines how the molecule functions
Functional groups are responsible for chemical reactions of molecules.
Functional groups are responsible for chemical reactions of molecules.
The functional groups present in a molecule determine its chemical reactivity by affecting how the molecule can interact with other molecules. Functional groups contribute specific chemical properties, such as polarity or reactivity, which influence the types of reactions the molecule can undergo. The presence of functional groups can determine the types of bonds that are formed or broken during a chemical reaction.
Functional Group
When CFC molecule comes near ozone, it reacts with it. This leads to depletion of ozone layer.
the form determines how the organic molecule will look and the shape will determine how the behave organic molecule reacts with other molecule
there is one atom of oxygen in Carbon monoxide (CO) i.e. half molecule of oxygen.
Two.
When one atom of sulfur reacts with one molecule of oxygen, they combine to form one molecule of sulfur dioxide. This reaction involves the sulfur atom bonding with the oxygen atom to create the sulfur dioxide molecule, which has one sulfur atom and two oxygen atoms.
hydrogen is not a molecule.
False. When an acid reacts with water, it forms hydronium ions (H3O+) by donating a proton to the water molecule.
They are the chlorophyll. Photosystem II reacts first