Cells are mostly as transparent as water. Their structures are difficult to distinguish without using stains to selectively enhance those structures and membranes.
only at the time of cell division in the metaphase and in the anaphase the chromosome are visible. because at this time the chromatin get aggregate and form the thick chromosome which are visible under microscope.
Robert Hooke discovered cells in plant tissue when he observed thin slices of cork under a microscope. His observation of cells marked the beginning of the field of cell biology.
Methylene blue is commonly used in microscope studies to aid in the observation of cell structures, such as the nucleus, mitochondria, and other organelles. It is a staining agent that highlights these structures by binding to nucleic acids or proteins within the cells, making them easier to visualize under a 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 invention of the microscope allowed scientists to observe cells for the first time, leading to the discovery of their structure and function. This observation of cells under the microscope provided crucial evidence that supported the development of cell theory, which states that all living organisms are composed of cells.
only at the time of cell division in the metaphase and in the anaphase the chromosome are visible. because at this time the chromatin get aggregate and form the thick chromosome which are visible under microscope.
Robert Hooke discovered cells in plant tissue when he observed thin slices of cork under a microscope. His observation of cells marked the beginning of the field of cell biology.
It depends on what cell you are looking at.
Methylene blue is commonly used in microscope studies to aid in the observation of cell structures, such as the nucleus, mitochondria, and other organelles. It is a staining agent that highlights these structures by binding to nucleic acids or proteins within the cells, making them easier to visualize under a microscope.
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.
A eukaryote under observation has no membrane to separate the nucleus.
A eukaryote under observation has no membrane to separate the nucleus.
A eukaryote under observation has no membrane to separate the nucleus.
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.