At 4000x magnification, you would be able to see the individual cells making up the human cheek tissue. You might also be able to observe the nucleus within each cell, as well as any organelles present, such as mitochondria or cell membranes. Additionally, you might see cell boundaries and potentially some cellular structures like vacuoles or cytoplasmic granules.
At 4000x magnification, you may be able to see detailed structures of cells, bacteria, and other microorganisms. This level of magnification can reveal intricate features such as cell organelles, cellular membranes, and microbial flagella. It is also useful for studying nanomaterials and nanoparticles in research and industry.
that is what even i am searching for?
If he/she was looking at something like a plant cell he would use the smaller lens because they would be much larger then something like a cheek cell which would need the medium or large magnification
An optical microscope can provide enough magnification to see most of the cell's parts.
At 4000x magnification, you would be able to see the individual cells making up the human cheek tissue. You might also be able to observe the nucleus within each cell, as well as any organelles present, such as mitochondria or cell membranes. Additionally, you might see cell boundaries and potentially some cellular structures like vacuoles or cytoplasmic granules.
At 4000x magnification, you may be able to see detailed structures of cells, bacteria, and other microorganisms. This level of magnification can reveal intricate features such as cell organelles, cellular membranes, and microbial flagella. It is also useful for studying nanomaterials and nanoparticles in research and industry.
The Onion cell and cheek cell both had cytoplasm, nucleuses, and cell membranes under 400x Magnification
If the total magnification is 200x and the magnification of the high-power objective (HPO) is 40x, then the magnifying power of the eyepiece is 5x (200x ÷ 40x = 5x).
You can start by setting the microscope at a low magnification of around 100x to locate and focus on the cheek cells. Once you have found the cells, you can increase the magnification to 400x or higher to observe them in greater detail. Adjust the focus and lighting as needed for a clear view.
Describe how the onion and cheek cell were similar in observed parts what parts did they have common? Well they are similar because they both have a nucleus and cytoplasm. They are different because in an onion cell there is a cell wall, doesnt have chlorplast, and it is a plant. For a cheek cell it has a cell membrane, doesnt have a cell wall, and is an animal.
that is what even i am searching for?
If he/she was looking at something like a plant cell he would use the smaller lens because they would be much larger then something like a cheek cell which would need the medium or large magnification
The onion cells are much more rectangle shaped, than the cheek cells and the nucleus in the onion cell is much more bigger and better seen in the microscope.
An optical microscope can provide enough magnification to see most of the cell's parts.
Cytoplasm nucleus and cell membrane containing 46 chromosomes
It is multicelluar because human is muticelluar animals probabaly cheek cell looked like nuicellular but the cheek cell is fall apart from our cheek.