Depending on how many cells there are in the field of view. On medium power, you may not be able to see any.
start with the low power objective
Due to the techniques of obtaining the samples, onion cells remain intact in the tissue, but because cheek cells are obtained by rubbing a toothpick on your cheek, you are disrupting the cheek tissue, and instead of getting a sheet of cheek cells, you get individual cheek cells.
they are able to be able to connect
cheek is eukaryotic multicellular and sexual
No chloroplasts in cheek and onion cells
They look like animal cells which kind of look like small tiny blobs if you see them under a microscope with a very low objective. And of course if you see the cheek cells under a high objective, you will see the blobs but it will be in a close up. But it also depends on the cheek cells....
start with the low power objective
The cheek cells and skin cells are similar becuase they both are cells they are on the body.
Due to the techniques of obtaining the samples, onion cells remain intact in the tissue, but because cheek cells are obtained by rubbing a toothpick on your cheek, you are disrupting the cheek tissue, and instead of getting a sheet of cheek cells, you get individual cheek cells.
Cheek cells usually have a vacuole. The cheek cells are part of the human cells and are therefore classified as animal cells which usually have vacuoles.
Why do cheek cells need to be constantly replaced?
no
they are able to be able to connect
The cheek contains muscle cells, covered by epithelial cells.
cheek is eukaryotic multicellular and sexual
No chloroplasts in cheek and onion cells
Between the 2 cells that are cheek and onion cells, the one that has a regular arrangement and structure are onion cells. Cheek cells have an irregular shape.