NO, but if you do the experiment on onion cell and add stuff to it. Then you can get the result (DNA)
the cell wall seems to be viewed most clearly in an onion cell just as the nucleus. I did this lab not too long ago... just last week. hope this helps in the future! ;)
cell wall, vacuole, nucleolus, cytoplasm, cell membrane, nucleus
The nucleus.
a microscope..dimm-witt..
iodine
Staining
Cell walls and chloroplasts
It is not possible to see organelles with a compound light microscope because some organelles are to small to be seen with the low magnification of the light microscope. If they can not be seen through the compound microscope they are normally looked at through the electron microscopes (transmission electron microscope {TEM} or scanning electron microscope {SEM}).
Light microscopes can observe objects of 100 nm- 1 mm. Electron microscopes can observe objects of 1 nm-100 µm.
specimen observed
properties of the image under dissecting microscope
Glucosazone is a compound formed by the reaction of glucose with hydrazine. It is used as a reagent to detect and quantify glucose in laboratory settings. In the presence of glucose, glucosazone forms crystals that can be observed under a microscope.
A compound microscope typically uses light energy, specifically visible light, to illuminate the sample being observed. This light passes through the lenses of the microscope to magnify and visualize the specimen.
A mirror on a compound light microscope reflects light from an external source, such as a lamp or sunlight, onto the specimen being observed. This helps to illuminate the specimen and improve visibility for better observation and analysis under the microscope.
its because ..... yeah !
The eyepiece of a microscope is also known as an ocular lens. It is the part of the microscope that you look through to view the magnified image of the specimen being observed.
Cell walls and chloroplasts
The position of an image under a microscope varies based on the type of microscope being used. In a compound microscope, the image is formed inverted and reversed from the object being observed. In a stereo microscope, the image is typically upright and not inverted.
It is not possible to see organelles with a compound light microscope because some organelles are to small to be seen with the low magnification of the light microscope. If they can not be seen through the compound microscope they are normally looked at through the electron microscopes (transmission electron microscope {TEM} or scanning electron microscope {SEM}).
Light microscopes can observe objects of 100 nm- 1 mm. Electron microscopes can observe objects of 1 nm-100 µm.
microscope or for more detail an electron microscope
specimen observed
No