Organelles that can be seen under a microscope include the nucleus, mitochondria, endoplasmic reticulum, golgi apparatus, lysosomes, and chloroplasts (in plant cells). These organelles can be visualized using different staining techniques and microscopy methods, such as light microscopy or electron microscopy.
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}).
The organelles that can absorb iodine stain and be seen with the low power of a compound light microscope are the nucleus and the starch granules (amyloplasts). Iodine stains the nucleic acids in the nucleus and the stored starch in the amyloplasts, making them visible under the microscope.
Under a transmission electron microscope, one can see the internal structure of cells, tissues, and individual molecules at a very high magnification. This type of microscope can reveal details such as the arrangement of atoms and the ultrastructure of organelles within cells.
Organelles like ribosomes, endoplasmic reticulum, and Golgi apparatus are visible under an electron microscope but not under a light microscope due to their smaller size and lack of observable detail at the resolution of a light microscope.
Depends, optic microscopes don't see much smaller than a nucleus very well, organelles such as mitochondria are seen as specks if you have a good microscope. To see more detail, you need an electron microscope (transmission or scanning), with which you can even see objects as small as viruses.
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}).
The organelles that can absorb iodine stain and be seen with the low power of a compound light microscope are the nucleus and the starch granules (amyloplasts). Iodine stains the nucleic acids in the nucleus and the stored starch in the amyloplasts, making them visible under the microscope.
The larger organelles, such as nucleus, mitochondria, and cellular membrane.
The organelles in a cheek cell that are not visible under a light microscope are the ribosomes. These organelles are responsible for protein synthesis.
Not all organelles can be stained and seen under a microscope because some organelles are transparent or have similar refractive indexes to their surroundings, making them difficult to distinguish. Additionally, staining techniques may not penetrate certain organelles effectively or may disrupt their structure, making them undetectable.
Under a transmission electron microscope, one can see the internal structure of cells, tissues, and individual molecules at a very high magnification. This type of microscope can reveal details such as the arrangement of atoms and the ultrastructure of organelles within cells.
Organelles like ribosomes, endoplasmic reticulum, and Golgi apparatus are visible under an electron microscope but not under a light microscope due to their smaller size and lack of observable detail at the resolution of a light microscope.
only under an electron microscope wiki it
Depends, optic microscopes don't see much smaller than a nucleus very well, organelles such as mitochondria are seen as specks if you have a good microscope. To see more detail, you need an electron microscope (transmission or scanning), with which you can even see objects as small as viruses.
Large cell structures such as the nucleus and mitochondria can be seen under the light microscope if they are properly stained. In addition, chromosomes and centromeres can be seen during cell division.
Most organelles are very small and require a magnification greater than the x1500 available using a light microscope. An electron microscope is required for greater magnification and resolution. Therefore a small area of the slide is avalible.
Yes, human eggs can be seen under a microscope.