Answer:
Hydrolysis.
Explanation:
Hydrolysis is a type of chemical reaction in which a molecule of water breaks down into one or more chemical bonds.
The term is used broadly for these reactions: substitution, elimination, and fragmentation reactions in which water is the nucleophile.
Biological hydrolysis is the division of biomolecules where a water molecule is consumed to effect the separation of a larger molecule into small parts. When a carbohydrate is broken down into its component sugar molecules by hydrolysis process, that is called saccharification.
After breaking down by hydrolysis process, carbohydrates produce small particles or molecules. As an example, by the hydrolysis process, sucrose produces glucose and fructose.
Answer Options:
A: The runner's body will convert stored fat molecules into energy.
B: The runner's body will create the needed energy by breaking down proteins.
C: The runner's body will supply the needed energy by producing starch.
D: The runner's body will produce the energy by activating the Golgi apparatus.
Answer:
A: The runner's body will convert stored fat molecules into energy.
Explanation:
When the body needs energy to power cells, it uses ATP. ATP is generated by cellular respiration, which involves the breakdown of (usually) sugars by aerobic respiration.
If you exercise for a longer period such as during long distance running, your body will use more fat and less glucose in an attempt to conserve the limited glucose stores in case exercise intensity increases and oxygen availability is is reduced.
Called<span> the "parent </span>cell," divides to produce to genetically equal smaller cells<span>. Meiosis.</span>
Some drugs that can aggravate this issue include<span> chlorpromazine, and haloperidol. These two can cause Cardiac Arrhythmia </span>
Answer:
Each gamete comprises half of the organism's chromosomes, or genetic material. As a result, each sperm carries 50% of the father's genes and each egg carries 50% of the mother's genes. This distinguishes gametes from other cells in the body.
Explanation:
