c02 is diffused into the epidermis of a leaf and the chloroplast uses these molecule along with sunlight to make sugar and oxygen.
The two organelles in a plant cell that are sites of ATP synthesis are the mitochondrion and the chloroplast.Not all cells in a plant contain chloroplasts.
Chloroplast converts light energy into chemical energy.Solar panel converts light energy into electric energy.
The chloroplast is the organelle that enables photosynthesis. So, a cell with a chloroplast will be autotrophic, but not the chloroplast itself. A eukaryote is a type of cell with a nuclues, and other membrane bound organelles. So chloroplasts, eukaryotes, and autotrophs can't be related the way you asked in your question. I hope that helps!
One method of movement across the membrane is by diffusion, which is related to osmosis.
Diffusion and Convection. In molecular diffusion, the moving entities are small molecules. Diffusion is the thermal motion molecules at heated temperature. Diffusion rate is a function of only temperature, and is not affected by concentration. I do believe this answer is most likely wrong.
Osmosis is related to movement of water where as diffusion is related to movement of gases.
Convection
Digestions is a life function that is directly related to diffusion and osmosis. The nutrients digested are absorbed and distributed via diffusion and osmosis.
The process of diffusion or osmosis aims to reach equilibrium.
They aren't. Chloroplast is found strictly in plant cells and Lysosomes are found strictly in animal cells.
Osmosis is related to diffusion by having something diffuse through a solvent
The two organelles in a plant cell that are sites of ATP synthesis are the mitochondrion and the chloroplast.Not all cells in a plant contain chloroplasts.
its related acid configuration and metropolitan diffusion
is it true or false that barriers to diffusion are mostly because of the local cultures?
Chloroplast converts light energy into chemical energy.Solar panel converts light energy into electric energy.
diffusion
The rate of diffusion is directly related to the concentration of gradient. For example, the greater the amount between the concentration of the areas, the greater the greater to difference in diffusion.