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The surface area of mitochondria or chloroplast affect its energy output because larger surfaces-to-volume ratio imply more loss of energy as opposed to smaller surface-to-volume ratios.
Chloroplast convert light energy. Mitochondria convert chemical energy itself
chloroplast involves in gene expression and mitochondria for energy synthesis.
Mitochondria use glucose as fuel.Glucose are produced in chloroplast.
the chloroplasts and the mitochondria work together by trading nutrients. Both the mitochondria and the chloroplast create energy, the mitochondria create energy via respiration when there is no sunlight for the chlorophyll,
The surface area of mitochondria or chloroplast affect its energy output because larger surfaces-to-volume ratio imply more loss of energy as opposed to smaller surface-to-volume ratios.
Chloroplast convert light energy. Mitochondria convert chemical energy itself
chloroplast involves in gene expression and mitochondria for energy synthesis.
Mitochondria use glucose as fuel.Glucose are produced in chloroplast.
the chloroplasts and the mitochondria work together by trading nutrients. Both the mitochondria and the chloroplast create energy, the mitochondria create energy via respiration when there is no sunlight for the chlorophyll,
Chloroplast converts light energy into chemical energy, whereas mitochondria converts chemical energy into a different chemical energy. Chloroplast is present in plants and mitochondria is present in all cells
No it is not mitochondria. It is the chloroplast
chloroplast and the mitochondria
Mitochondria & Chloroplast
Both of them are not making. Energy is a constant thing.
mitochondria and chloroplasts
Chloroplasts and mitochondria both supply energy to the cell.