You need to add "the following steps" before we can help you answer the question. It is very complex without more information.
Fatty acids and glycerol.
Glycolisis is the first step.It is common to aerobic and anerobic respiration.
Yes, they do. Mostly any organism containing cells will go through cellular respiration. Plants and Animals have different body systems, the cardiovascular and respiratory being involved in cellular respiration. The cells need oxygen to survive, therefore they respirate to be able to.
.Glycolysis
You shouldn't; it's just a process created by the college board to stress students out before the AP Biology Exam
Glycolysis or "Splitting of sugar", has to happen in the cell's cytoplasm before cellular respiration can occur. I hope this helps!
Cellular respiration is the process by which a living creature's cells turns glucose.
In a battle of marathon, you need photosynthesis. In a running race, you need cellular respiration. In order for the correct equation to occur, you must balance the equation BEFORE you calculate surface area. However, since the products of photosynthesis are the reactants of cellular respiration, you can just use sig figs before plugging it into y=mx+b. M is for mitochondria which is the powerhouse of the cell.
Glycolisis is the first step.It is common to aerobic and anerobic respiration.
.Glycolysis
Fatty acids and glycerol.
Glycolisis is the first step.It is common to aerobic and anerobic respiration.
Yes, they do. Mostly any organism containing cells will go through cellular respiration. Plants and Animals have different body systems, the cardiovascular and respiratory being involved in cellular respiration. The cells need oxygen to survive, therefore they respirate to be able to.
.Glycolysis
Glucose is broken down IN cellular respiration, also called the Kreb cycle. Glucose enters this electron transport chain process intact, and is broken down to CO2 and water, while giving off chemical energy which is stored in the form of ATP molecules for the cell to use for chemical energy in metabolic processes. Glucose is not broken down before cellular respiration; it is broken down IN the process.
Cellular respiration would produce less energy.
If oxygen is absent in cellular respiration, then you go to anaerobic respiration. Anaerobic respiration that still uses the electron transport chain., but without oxygen.