Photosynthesis and Cellular Respiration

Photosynthesis takes place in plants plus some bacteria. It happens within the chloroplasts. It utilizes H2O, Light energy and CO2 and provides off O2 and glucose. Respiration takes place in animals and plants. It happens within the mitochondria. It makes use of glucose and O2 to create energy, H2 and CO2. Photosynthesis and cellular respiration, both processes take place simultaneously within light. Cellular respiration, however, occurs in the mitochondria and cytoplasm. Photosynthesis happens in the chloroplasts.

In respiration, oxygen and glucose are employed to produce water and carbon dioxide also to release energy. Within photosynthesis, water, carbon dioxide and energy are utilized to produce glucose and release an oxygen. Therefore, photosynthesis catches light energy, keeping it as chemical energy.

Cellular respiration and photosynthesis are opposites. Cellular respiration takes in oxygen and releases CO2. Photosynthesis takes in CO2 and releases oxygen. The oxygen the photosynthesis creates will be employed for cellular respiration; the CO2 which cellular respiration generates will be useful for photosynthesis.


Compare Photosynthesis and Cellular Respiration

Both photosynthesis and cellular respiration would be the main pathways associated with energy transportation within organisms. But, the products and the reactants are exact opposites within photosynthesis and in cellular respiration. In photosynthesis, cells ingest water (H2O) and carbon dioxide (CO2) through absorbing energy through the sun, after which the cells launch oxygen (O2) and store glucose (C6H12O6). In compare photosynthesis and cellular respiration, oxygen and glucose are used into the cells, next they are changed to water, carbon dioxide and ATP energy plus some other energy.

Both processes occur within the cells. In comparison, The site of photosynthesis is actually chloroplast, as the sites of cellular respiration tend to be mitochondrion and cytoplasm. The chloroplast, that has two membranes close to a central aqueous space, is located mainly inside mesophyll cells building the tissues in the inside of the leaf.

Photosynthesis is to Chloroplasts as Cellular Respiration is to

The chloroplast is constructed of thylakoid, stroma and grana. Chlorophyll, that is a green pigment, is found in the chloroplasts. The mitochondrion additionally has two membranes, the inner membrane and the outer membrane. Photosynthesis is to chloroplasts as cellular respiration is to, mitochondria, chloroplasts, nuclei and cytoplasm. Within the inner membrane is actually the matrix, folded through cristae. Both mitochondrion and chloroplast additionally contain RNA and DNA and they are located only inside eukaryotic cells.

Photosynthesis is actually a redox reaction, which turns around the direction of electrons movement in respiration. Via photosynthesis, water is divided and electrons are moved with H+ through the water, into carbon dioxide, then decreasing it to sugar. You can find two main levels of photosynthesis, which are the Calvin cycle (synthesis) and the light reactions (photo).

Unlike Photosynthesis Cellular Respiration Occurs in

Photosynthesis and cellular respiration are the process where organisms that include the pigment chlorophyll change light energy directly into chemical energy which could be saved in the molecular bonds of the organic molecules. Photosynthesis and cellular respiration powers nearly all food webs and trophic chains on the planet. Unlike photosynthesis cellular respiration occurs in, plant cells, rokaryotic cells, animal cells and in all eukaryotic cells. Plant cells, after making sugar molecules via photosynthesis, undertake cellular respiration to generate ATP molecules. Animals acquire food molecules through organisms and plants and next undergo cellular respiration to acquire ATP molecules. Almost all living organisms make use of these stored ATP molecules to perform their metabolic processes.

Cellular respiration occurs in the identical way in both animals and plants. Living cells receive the products of photosynthesis and go through cellular respiration to create ATP molecules. Several cells respire aerobically, making use of oxygen, while others undertake anaerobic respiration, without needing oxygen. The process requires a set of chemical reactions to transform chemical energy through the glucose molecules into the ATP molecules.