because it is very tiny. that is why squid axons can be used in experiments -- much bigger in diameter.
It depends on what cell you are looking at.
Cell membranes are not typically visible under a light microscope because they are thin and transparent. However, special staining techniques or electron microscopy can be used to make cell membranes visible.
only under a microscope
It stains the cell, making it easier to observe under microscope.
With a less stronger microscope the nucleus ,cell membrane and cytoplasm are visible,but in plant cell cell wall and chlorophalast
It depends on what cell you are looking at.
You can examine the cell under a light microscope. Eukaryotic cells have nuclei, and these should be visible under a light microscope.
The nucleus is the most noticeable organelle in a eukaryotic cell under a microscope due to its size and distinct structure. It appears as a large, round structure typically located in the center of the cell.
The nucleus is most noticeable under a microscope.
You can see chloroplasts and a nucleus under a light microscope.
Cell membranes are not typically visible under a light microscope because they are thin and transparent. However, special staining techniques or electron microscopy can be used to make cell membranes visible.
only under a microscope
only under a microscope
The organelles in a cheek cell that are not visible under a light microscope are the ribosomes. These organelles are responsible for protein synthesis.
Under a compound light microscope, you would not be able to see specific organelles like the lysosomes, peroxisomes, endoplasmic reticulum, and Golgi apparatus in an onion cell stained with iodine. These organelles are typically smaller and/or transparent, making them difficult to visualize with this type of microscope.
The first person to witness a live cell under a microscope was Antonie van Leeuwenhoek in the 17th century. Using a simple microscope he designed, he observed single-celled organisms in various forms of life.
Cork cells from plants were first observed under a microscope by Robert Hooke.