Plant cells, animal cells and bacteria can be visualized through the light microscope. Although some of these samples may require staining in order for the observer to see them, the magnification offered by the light microscope is sufficient to look at the morphological structures of the types of cells mentioned above
No, you need a florescent microscope to see that.
The cytoplasm is somewhat clear when looking through a light microscope. However you can see where the cytoplasm is. You can see cell walls and cell membranes through a light microscope, the spaces in between these lines is cytoplasm.
A Light stereoscope microscope; this type of microscope is used to see three dimensional views of objects too thick to let light pass through.
no, because the penny is not see-through. The compound light microscope uses a light and all you would see is a dark spot that used to be the penny.
The difference between a light and electric microscope is that the light microscope is solar powered
No, you need a florescent microscope to see that.
YES
The cytoplasm is somewhat clear when looking through a light microscope. However you can see where the cytoplasm is. You can see cell walls and cell membranes through a light microscope, the spaces in between these lines is cytoplasm.
A Light stereoscope microscope; this type of microscope is used to see three dimensional views of objects too thick to let light pass through.
A Light stereoscope microscope; this type of microscope is used to see three dimensional views of objects too thick to let light pass through.
because of the color of blood
A Light stereoscope microscope; this type of microscope is used to see three dimensional views of objects too thick to let light pass through.
the newton ring
field of view
To illuminate what you are looking at or to give enough light to see through something you are looking at.
no, because the penny is not see-through. The compound light microscope uses a light and all you would see is a dark spot that used to be the penny.
Light microscope works because light goes *through* your specimen. So if the specimen is too thick, then light won't shine through, and you won't see anything.