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Food cells?
Cheek cells
Methylene Blue, in this situation, is being used as a microscopy stain. Microscopy stains are used to allow for particular characteristics of cells to be observed in greater detail or to make them easier to see.
Human cheek cell are kind of circular in shape but not really, they are actually of irregular shape as most of the animal cells are irregular in shape. Fact : you can take out your cheek cells by simply rubbing you nails on your cheeks and put whatever the stuff is jammed in your nail on a slide and view it through a microscope. now shut up and do your homework!!!!
All you have to do is take a cotton bud and wipe it on your mouth by your cheek and take that and wipe it on a slide and put a cover slip on it ! Then put it under a microscope! and you are done, see how your cheek cells look!
In liquid medium one starts by placing one or two loopfuls of the liquid medium directly on the slide. From solid media such as nutrient agar. One starts by placing one or two loopfuls of water on the slide and then using an inoculation loop to disperse the organisms in the water. Bacteria growing on solkid media tend to cling to each other and mus be dispensed suficiently by dilutiion in water.
Cheek cells
Methylene Blue, in this situation, is being used as a microscopy stain. Microscopy stains are used to allow for particular characteristics of cells to be observed in greater detail or to make them easier to see.
Because they don't have a cell wall to keep them in place
HCl is used to destroy the substances that unite the cells so that the cells spread easily and you can see one layer of cells on your slide.
Cell fragility causes smudge cells to appear on peripheral smears. Addition of albumin prior to slide preparation essentially coats the fragile cells, thus keeping them intact on smear preparation.
Human cheek cell are kind of circular in shape but not really, they are actually of irregular shape as most of the animal cells are irregular in shape. Fact : you can take out your cheek cells by simply rubbing you nails on your cheeks and put whatever the stuff is jammed in your nail on a slide and view it through a microscope. now shut up and do your homework!!!!
All you have to do is take a cotton bud and wipe it on your mouth by your cheek and take that and wipe it on a slide and put a cover slip on it ! Then put it under a microscope! and you are done, see how your cheek cells look!
In liquid medium one starts by placing one or two loopfuls of the liquid medium directly on the slide. From solid media such as nutrient agar. One starts by placing one or two loopfuls of water on the slide and then using an inoculation loop to disperse the organisms in the water. Bacteria growing on solkid media tend to cling to each other and mus be dispensed suficiently by dilutiion in water.
This is because the cheek cell is transparent. Since the membrane of the cheek cell is selectively permeable, it allows the methylene blue to enter the cell , therefore makes it blue in color from the inside. Then we are able to see the cheek cell properly under a microscope... please note. : we are supposed to add a bit of water and gliserene too . WATER : to transfer the cheek cells on to the slide AND GLISERENE: to prevent the cheek cells from drying up.
To explicitly convey the points you are trying to make with the slide.
Osmosis is the movement of water by diffusion across a semi-permiable membrane. The student placed the cheek cells in water and when cells are placed in an environment of a high concentration of a particular substance, the cell practices osmosis where the water moves from a high concentration (the water on the slide), to a low concentration (the cheek cells) until they reach equilibrium. In this case, the process of osmosis did not cease as the cells were immersed in such a high concentration of water and it continued until the cell was so full that it burst. Unlike plant cells, cheek cells do not have a cell wall and their membrane is semi permeable, thus allowing water to travel through. The cell reacts to this water in almost a form of 'shock' and it tries to make the inner contents of itself, equal to its surroundings.
just look at the slide and get happy and don't ask just cheap questions