of the ATP in cellular respiration and photosynthesis

Photosynthesis and cellular respiration are similar in that they both undergo chemiosmosis.

How are photosynthesis and cellular respiration related to each other

The light-independant reactions of photosynthesis occur in the stroma of the chloroplast and involve the conversion of carbon dioxide and other compounds into glucose. The light-independent reactions can be split into three stages, these are carbon fixation, the reduction reactions and finally the regeneration of ribulose bisphosphate. Collectively these stages are known as the Calvin Cycle.

There are very few similarities between photosynthesis and cellular respiration.

Comparing Photosynthesis and Cellular Respiration by …

You should be careful to notice that the process of cellular respiration is essentially the reverse of photosynthesis. The catabolic breakdown (burning) of glucose requires the presence of oxygen and yields energy and . This process is generally the same when any organic molecule is respired (or burned) whether it is glucose in a living animal or plant cell, wood in a fire, or gasoline in a car. The breakdown of any energy storing chemical releases carbon dioxide as a byproduct, which may then be used by plants in the photosynthetic process.

The outputs of respiration (energy, carbon dioxide, and water) are the inputs of photosynthesis.

The entire process of cellular respiration can be broken down into three separate stages: Gycolysis (meaning splitting sugars), the Citric Acid Cycle, and the Electron Transport Chain.

Between photosynthesis and cellular respiration there is what is called an inverse relationship.

Photosynthesis and Cellular Respiration Flashcards | …

A limiting factor is a factor that controls a process. Light intensity, temperature and carbon dioxide concentration are all factors which can control the rate of photosynthesis. Usually, only one of these factors will be the limiting factor in a plant at a certain time. This is the factor which is the furthest from its optimum level at a particular point in time. If we change the limiting factor the rate of photosynthesis will change but changes to the other factors will have no effect on the rate. If the levels of the limiting factor increase so that this factor is no longer the furthest from its optimum level, the limiting factor will change to the factor which is at that point in time, the furthest from its optimum level. For example, at night the limiting factor is likely to be the light intensity as this will be the furthest from its optimum level. During the day, the limiting factor is likely to switch to the temperature or the carbon dioxide concentration as the light intensity increases.

Both photosynthesis and cellular respiration ..

It takes place in the mitochondria, consuming oxygen, producing carbon dioxide and water as waste products, and converting ADP to energy-rich ATP.
Two Types of Fermentation
Lactic Acid Fermentation:
The process by which our muscle cells deal with pyruvate during anaerobic respiration.
Alcoholic Fermentation:
A type of cellular respiration which does not require oxygen (anaerobic respiration), and involves the breaking down of glucose to pyruvic acid and then finally ethanol.
Alcoholic Fermentation
Lactic Acid Fermentation:
Electron Transport

Definition of the Electron Transport Chain:
A group of compounds that pass electrons from one to another coupled with the transfer of protons across a membrane to create a proton gradient that drives ATP synthesis.
Inner mitochondrial membrane
How do you inputs and outputs of photosynthesis relate to those of respiration?
The inputs and outputs of photosynthesis relate to those of respiration because the outputs of photosynthesis (oxygen, glucose, and water) are the inputs of respiration.

The Cellular respiration and photosynthesis ..

Although this system seems simple enough, cellular respiration can not take place in just one step because all of the energy from glucose would be released at once, most of it being lost in the form of light and heat....