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prepared by adding water to the specimen which increases its translucency and makes it easier to stain. It also has a tendency to cause the specimen to flatten which makes the specimen easier to view.
To prepare a dilute solution.
Adding methylene blue to a slide will stain animal cells and make the nuclei more visible.
Adding nothing to the water should not affect the rate at which the water freezes. Adding substances, though, can noticeably depress the freezing point so that it will take longer to freeze than pure water under the same conditions. Salt is commonly used for this purpose. Adding nothing to water isn't expected to do anything to the rate at which it freezes.
hahaha.... bleeh bio 31L bro?
prepared by adding water to the specimen which increases its translucency and makes it easier to stain. It also has a tendency to cause the specimen to flatten which makes the specimen easier to view.
To prepare a dilute solution.
Adding methylene blue to a slide will stain animal cells and make the nuclei more visible.
It is to activate the enzymes in the organism or just to dissolve out some important chemicals in it.
Its purpose is to inhibit the metabolism of glucose by cells in a specimen of blood.
the two together get and trap dirt and bacteria.
The specific purpose is to be able to see very small details of specimen's.
Adding nothing to the water should not affect the rate at which the water freezes. Adding substances, though, can noticeably depress the freezing point so that it will take longer to freeze than pure water under the same conditions. Salt is commonly used for this purpose. Adding nothing to water isn't expected to do anything to the rate at which it freezes.
To decrease the pH of the pool, hopefully keeping it at whatever alkalinity/acidity you desire.
to generate light, so the specimen can be examined
it is a drying type oil so can be easily used with most of the specimen and it is a transparent oil having specific optical and viscosity characters
Compare its weight to the weight of an equal volume of water. The weight of the specimen divided by the weight of the water equals the density of the specimen.