To break down sugar and produce useful energy, the cells need many things, but most importantly they need ENZYMES.
The part of cellular respiration in which glucose is broken down is called the glycolysis. The chemical energy to produce ATP come from the breakdown of carbon based molecules into the smaller molecules.
dehydration synthesis or condensation reaction
Sugars.
Matter that undergoes a physical change has the same chemical make up as the product. For example, when ice melts, the liquid water and ice are still water with the formula H2O. In a chemical change, matter does undergo a change, so that it is no longer the same substance that you started with. For example, magnesium plus hydrochloric acid react to produce the products magnesium chloride and hydrogen gas. So the products are completely different from the reactants.
This is called synthesis, a combination chemical reaction that changes the chemical bonds in the substances.
To break down sugar and produce useful energy, the cells need many things, but most importantly they need ENZYMES.
A chemical reaction that happens in every cell to break down sugar
Breakdown of proteins produce aminoacids.
The part of cellular respiration in which glucose is broken down is called the glycolysis. The chemical energy to produce ATP come from the breakdown of carbon based molecules into the smaller molecules.
Technically glucose is a chemical itself - a molecule with a definite structure.
the reaction would produce LiF Lithium Fluoride
One molecule of glucose can produce 36 molecules of ATP from aerobic cellular respiration.
yes chemical,enzymes break bonds in proteins Thus separating the amino acid and breaking apart the molecule
yes chemical,enzymes break bonds in proteins Thus separating the amino acid and breaking apart the molecule
If you were referring to two actual atoms they were not listed. When two atoms of different chemical elements bond together they form a chemical compound.
a condensation reaction or a dehydration reaction
dehydration synthesis or condensation reaction