Answer: The evidence that supports this is because mitochondrion and chloroplast both have a “brother” cell; the cells are extremely alike. The “brother” cell is a prokaryotic cell.…
They both are astonished on how it really works and would love to tell people all about it. As they approach the mitochondria they are star-struck. It’s just like how they pictured it the unusual organelle. The mitochondria acts like the power plant of the entire cell. It’s the site of all cellular respiration where the energy or better known as ATP (adenosine triphosphate) is released from all the energy that was stored from foods into the cell. The mitochondrion is folded into many places like a double membrane called the cristae, which is the inner membrane. The outer membrane is called the matrix. If it was up to the two scientist they wish they could stay in the cell forever but sadly they have to come out so they can explain to others what they have seen so they have others gain the knowledge they have doing this…
The mitochondria is the site of ATP production for the cell. ATP is the energy currency of the cell. Mitochondria are nicknamed, the "powerhouse".…
Mitochondria carry out critical steps in the extraction of energy from food, and the conversion of that “trapped” energy to a useful form. They are the cell’s “power plants.” Chloroplasts are organelles found in algae and in the green parts of plants. Chloroplasts have two membranes surrounding them, as well as an internal system of stacked membrane discs.…
Mitochondria have a "bag within a bag" structure. This is necessary to: create two distinct regions with a concentration gradient between them, a form of potential energy.…
The mitochondria is the powerhouse of the cell it provides energy to the cell through respiration.The food that we eat is broken into simpler molecules like carbohydrates, fats and etc in our bodies. These are sent to the mitochondrion where they are further precessed to produce charged molecules that combine with oxygen and produce Adenosine TriPhosphate (ATP) molecules. This entire process is known as oxidative phosphorylation.Mitochondria also helps in the building of certain parts of the blood, and hormones like testosterone and estrogen.…
Would it be accurate to say that a chloroplast makes energy for a plant cell? Explain your…
5. Could this process take place in the dark? Use complete sentences to justify your answer.…
Mitochondria- Mitochondria are the energy factories of the cells. The energy currency for the work that animals must do is the energy-rich molecule adenosine triphosphate (ATP). The ATP is produced in the mitochondria using energy stored in food. Just as the chloroplasts in plants act as sugar factories for the supply of ordered molecules to the plant, the mitochondria in animals and plants act to produce the ordered ATP molecules as the energy supply for the processes of life.…
As stated in the intro photosynthesis, “is the process is where plants use “light energy from the sun that is converted into carbon dioxide and water to glucose sugar and oxygen gas through a series of reactions.” ("Chemical Formula Basic Chemistry - Writing Chemical Formula To Balancing Chemical Equations", 2014) All of this information is complied in an equation that helps understand the process, carbon dioxide + water = light energy => glucose + oxygen. The carbon dioxide can be found in the air, water comes from the earth and the energy comes from the sun. Chloroplasts trap the light energy, water then enters the leaves from the earth, and the carbon dioxide enters from the stomata. All of these combined produce glucose and oxygen, which then leaves the leaf and is stored in the plant tissue.…
Chloroplasts are located in the cytoplasm next to the Golgi apparatus. Chloroplasts are only found in photosynthetic cells of plants and algae.…
The space between the two mitochondrial membranes usually has a lower pH than the matrix of the mitochondrion as a result of the H+ that are transported into the intermembrane space by the activity of the electron transport chain. They are contained there until they are allowed out during ATP synthesis. These cristae give the inner membrane a large total surface area, so it can hold many molecules of the electron transport chain and ATPase. The more membrane there is, the more ATP and reduced NAD can be produced. Cristae in mitochondria from different types of cells show considerable variation in appearance, but, Figure 2.12 TEM of a mitochondrion inside a pancreatic cell, where much ATP is required for the synthesis of enzymes.…
Chloroplasts are a type of plastid found within the plant they are the basis of photosynthesis. Without photosynthesis there would be no life on earth. Photosynthesis takes the energy from sunlight and coverts it into a chemical energy that can be used by the plant.…
Cellular respiration happens in or near the mitochondria. Photosynthesis happens in the chloroplast of a plant. But they both can be performed in plants. And materials produced in one process are used in the other. And they both work in different types of organisms.…
Chloroplast. Bigger and fatter than mitochondria, chloroplasts are where photosynthesis takes place, so are only found in photosynthetic organisms (plants and algae).…