Under a microscope, grass cells appear as small, rectangular structures with a green color due to the presence of chlorophyll. They have a cell wall and a central vacuole, and may contain chloroplasts for photosynthesis.
Robert Hooke was the first person to see cells under the microscope in 1665. He also named these as cells because they looked like comb of honey bees. They also reminded him of the small rooms that monks used called cells.
Immature sperm cells, also known as spermatids, appear as round cells with a condensed nucleus and a small amount of cytoplasm. They are smaller and less developed compared to mature sperm cells, which have a distinct head, midpiece, and tail. Under a microscope, spermatids can be observed in various stages of spermatogenesis as they continue to mature into fully developed sperm cells.
They look like animal cells which kind of look like small tiny blobs if you see them under a microscope with a very low objective. And of course if you see the cheek cells under a high objective, you will see the blobs but it will be in a close up. But it also depends on the cheek cells....
The cell was discovered by Robert Hooke in 1665. He examined (under a coarse, compound microscope) very thin slices of cork and saw a multitude of tiny pores that he remarked looked like the walled compartments a monk would live in
Under a microscope, depending on the magnification used, you can see detailed structures of cells, tissues, or organisms that are not visible to the naked eye. This can include looking at cell organelles, cellular processes, or even individual cells interacting with each other. The magnification allows for a closer examination and better understanding of biological and cellular structures.
Like a misshaped box. It is grey under a microscope.
Robert Hooke was the first person to see cells under the microscope in 1665. He also named these as cells because they looked like comb of honey bees. They also reminded him of the small rooms that monks used called cells.
It is called hairy cell leukemia because the cells have tiny hair-like projections when viewed under the microscope
The microscope was first invented and used by Robert Hooke. He looked at slices of cork under the microscope and noticed that they look like the little rooms that monks used. These were called cells. And so came the term cells for what makes up tissues.
Immature sperm cells, also known as spermatids, appear as round cells with a condensed nucleus and a small amount of cytoplasm. They are smaller and less developed compared to mature sperm cells, which have a distinct head, midpiece, and tail. Under a microscope, spermatids can be observed in various stages of spermatogenesis as they continue to mature into fully developed sperm cells.
Robert Hooke discovered cells in both living and dead organisms. Hooke invented an microscope in 1667. He studied various objects with it like wood, he put a small piece of cork under the microscope and found cells on it.
They look like animal cells which kind of look like small tiny blobs if you see them under a microscope with a very low objective. And of course if you see the cheek cells under a high objective, you will see the blobs but it will be in a close up. But it also depends on the cheek cells....
Movement such as cilia or flagella can be observed under a compound microscope. These are hair-like structures that protrude from certain cells and help with cell motility. By observing these structures, scientists can study how cells move and interact with their environment.
The cell was discovered by Robert Hooke in 1665. He examined (under a coarse, compound microscope) very thin slices of cork and saw a multitude of tiny pores that he remarked looked like the walled compartments a monk would live in
robert hooke he looked at a cork and said that it looked like a cell
Under a microscope, depending on the magnification used, you can see detailed structures of cells, tissues, or organisms that are not visible to the naked eye. This can include looking at cell organelles, cellular processes, or even individual cells interacting with each other. The magnification allows for a closer examination and better understanding of biological and cellular structures.
Under high power for a microscope, small units such as individual cells, organelles within cells (e.g., mitochondria, chloroplasts), and bacteria can be seen. Subcellular structures like ribosomes and nuclei are also visible at high magnification.