Through phagocytosis.
through the vacuoles
Phagosome is the name of the sac formed around a large particle that allows a cell to take in or remove the particle. Once engulfed by the cell, the phagosome can merge with lysosomes to break down the particle.
If you double the amount of gas in the same volume you will double the pressure.
A cell is the smallest unit in Excel, you cannot break it into multiple cells. However, if you have merged multiple cells into one large cell, you can break that merged cell into multiple cells by unmerging the single large merged cell.
EXOCYTOSIS-When a large particle must be removed from the cell, the cell uses a different process. In EXOCYTOSIS,vesicles are formed at the endoplasmic reticulum or Golgi complex and carry the particles to the cell membrane.ENDOCYTOSIS-In ENDOCYTOSIS, the cell membrane surrounds a particle and encloses it in a vesicle. This is how large particles, such as other cells, can be brought into a cell.They both require the use of ATP though, like active transport. However, passive transport doesn't require ATP.Phagocytosis is the cell that takes in large particles. This is used in Biology.
active transport by endocytosis
Diffusion would be inefficient in a large cell because it will take more time compare to a small cell.
is large cell b-cell lymphoma agent orange presumptive
Chloroplast and large Large vacuoles.
Vacuole is a large organell.It in middle of the cell.
The statement is incorrect. Molecules that are too large to be moved across a cell membrane are typically removed from the cell through exocytosis, where they are transported out of the cell in vesicles. Endocytosis is the process by which cells take in substances by engulfing them in vesicles, not removing them.
Cells bend into a U-shape around the object the want to take in, and when it is completely surrounded, the cell walls at the tip of the "U" begin to merge. now the cell is enclosed and the large item is in the cell (but still inside a cell wall of its own, to protect the inside of the cell).