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As, human cell is an animal cell. When it is placed in an hypotonic solution like freshwater,it will finally swell and burst
a specialized excretory cell found in the simplest freshwater invertebrates
they will disintegrate and soon the onion will peel and the onion part will BE NO MORE
For cells without a cell wall (e.g. animal cell), they increase in size and eventually burst. For cells with a cell wall (plant cell), the cell becomes turgid.
Robert Hooke was the first person to see cells in 1665. He was looking at a thin slice of cork through a microscope and he found found what he described as "tiny rooms" that he called cells (as that is what some small rooms are called). However, he believed that cells only existed in plants, not animals and bacteria.But if you are talking about animal cells, they were discovered by Antonie van Leeuwenhoek, who was observing pond water with his microscope and saw single cell organisms which he called "animalcules"or animal molecules. He also disproved the theory of spontaneous generation.
the cells fill with water
The cells gain water.
The cells gain water.
The cells fill with water.
The cells will fill with water.
As, human cell is an animal cell. When it is placed in an hypotonic solution like freshwater,it will finally swell and burst
certain types of color receptor cells, called cones.
I'm assuming you're talking about osmosis. If osmosis didn't occur, then the saltwater salmon couldn't adapt to freshwater and would suffer from a lack of water and too much salt in the cells, and the freshwater salmon would have too much water and not enough salt in it's cells. The saltwater salmon would shrivel up in freshwater, and the freshwater salmon would burst in saltwater.
Salt controls water absorption so the cells would gain water.
Salt controls water absorption so the cells would gain water.
The cells lose part of their liquids due to osmosis.
Not sure if this is what you are looking for. But, in saltwater fishes the cells in the gills secrete salt inte the sea water, whereas, in freshwater fish the cells in the gills actively transport salts from the water into the body.