The energy converters in the cell are and , where the energy is stored and the energy rel

Intracellular energy converters:

Chloroplasts: Photosynthesis is the synthesis of carbon dioxide and water into sugars and the production of oxygen.

Mitochondria: carry out respiration and are the "power factory" and "engine" of the cell.

It is chloroplasts that store energy, releasing energy mitochondria.

The energy converters in the cell are (mitochondria) and (chloroplasts), where it is the one that stores energy (chloroplasts) and the one that releases energy (mitochondria). Mitochondria convert stable chemical energy into active chemical energy, chloroplast converts light energy into electrical energy, and then converts it into active chemical energy and then into stable chemistry.

It's in the biology books! I almost forgot! The converter is the mitochondrial endoplasmic reticulum Golgi ribosomes (and chlorophyll in the case of plant green cells) where energy is stored (energy is either sugar or ATP mitochondria and cytoplasmic organism), and energy is released (mitochondria).

Not necessarily.

...Is this physics? It looks like a creature.

The converters are mitochondria (and chlorophyll in the case of plant green cells).

I don't know about the rest.

Mitochondria. Chloroplast.

Mitochondria is the place where aerobic respiration is carefully understood, and there are many enzymes related to aerobic respiration in the inner membrane, substrate and matrix of the mitochondria, which can convert the stable chemical energy stored in organic matter into chemical energy that can be used - ATP. The chlorophyte contains photosynthetic enzymes, which can convert light energy into chemical energy in organic matter during photosynthesis, while other organelles do not have the function of energy conversion.

Chloroplasts and mitochondria are cellular structures that can be involved in energy conversion.

Extended Materials. Chloroplasts) and (mitochondria) are both energy converters in cells.

Chloroplasts convert light energy into stable chemical energy in organic matter.

Mitochondria convert stable chemical energy in organic matter into heat energy and active chemical energy in ATP.

There are two types of energy converters within the cytoplasm of plant cells: chloroplast and mitochondria; Chloroplasts and mitochondria are energy converters for photosynthesis and respiration respectively, among which chloroplasts are unique to green plants, and the chlorophyll in chloroplasts can absorb light energy Chloroplasts can convert light energy into chemical energy and store chemical energy in the organic matter it produces Plant cells and animal cells contain mitochondria, and mitochondria release the chemical energy stored in organic matter to supply the needs of life activities Cell membranes have protection, control the movement of substances in and out of cells; There is genetic material inside the nucleus

<> solution: The chlorophyll in chloroplasts can absorb light energy, convert light energy into chemical energy, and store it in the organic matter of Suiqixiao; Mitochondria can decompose the organic matter in the cell into carbon dioxide and water with the participation of oxygen, and at the same time release the chemical energy in the organic matter for the cell to use as shown in the figure

So the answer is: chloroplast; This granula next to the line.

The chloroplast can convert light energy into chemical energy and store it in the organic matter he makes, and the mitochondria can release the chemical energy in the organic matter for the cell to use.

(1) The experiment uses the abrasive liquid of the liver, which can increase the contact area between catalase in the liver cells and hydrogen peroxide in the test tube, thereby accelerating the decomposition of hydrogen peroxide.

2) Dropwise ferric chloride solution and liver slurry cannot be combined with one dropper. Otherwise, due to the catalytic efficiency of the enzyme, a small amount of enzyme brought into the FeCl3 solution will also affect the accuracy of the experimental results, and even make people have the illusion and make wrong judgments.

3) During the experiment, special attention should be paid to the comparison of the number of bubbles, the cave condition of the burning section of the sanitary incense, and the comparison of the bubble time (the short time is because the enzyme quickly decomposes the hydrogen peroxide).

4) After adding the catalyst, plug the test tube mouth tightly with cotton to prevent O2 from escaping. Burning God gently shakes to mix the substances in the test tube evenly, preparing for the next step of hygienic fragrance verification.

Mitochondria in the cytoplasm.

and the role of chloroplasts in energy conversion.

There are energy converters in the cytoplasm.

Chloroplasts convert light energy into chemical energy, which is stored in the organic matter it makes. Mitochondria fuel the organic stuff in the cell, which binds to oxygen and goes through a complex process to convert it into carbon dioxide.

and water, while releasing the chemical energy in the organic matter for use by the cells.

There are two types of energy converters in plant cells: chloroplasts and mitochondria; There is only one kind of mitochondria in animal cells Chloroplast is unique to green plants and is the site of photosynthesis, and the chlorophyll in chloroplasts can absorb light energy Chloroplast can convert light energy into chemical energy and store chemical energy in the organic matter it produces Plant cells and animal cells both contain mitochondria, mitochondria are the site of respiration, which releases the chemical energy stored in organic matter to supply the needs of cell life activities and provide energy for cell life activities

So the answer is: mitochondria; Chloroplast.

Answer d can only be analyzed on the basis of a comprehensive understanding of the function of organelles; Mitochondria is the site of cellular aerobic respiration, and there are many enzymes related to aerobic respiration in the inner membrane, basal grains, and absolute matrix of the mitochondria, which can convert the stable lead macro-argumentative energy stored in organic matter into chemical energy that can be used - Huai deficiency ATP. Chloroplasts contain enzymes that convert light energy into chemical energy in organic matter during photosynthesis, while other organelles do not have the function of energy conversion.