It would simply depend on the type of organism you were studying.
With a less stronger microscope the nucleus ,cell membrane and cytoplasm are visible,but in plant cell cell wall and chlorophalast
The thin boundary of a vacuole, known as the tonoplast, may or may not be visible under a light microscope depending on the staining used, the type of vacuole, and the resolution of the microscope. In most cases, you would need an electron microscope to clearly visualize the tonoplast.
To study the membranes of a chloroplast, you could use techniques such as electron microscopy to visualize the membranes at a high resolution, biochemical fractionation to isolate and analyze the different membrane components, and functional assays to study the activities of specific membrane proteins.
scanning electron microscope
You would use an electron microscope to view a Golgi apparatus.
a cell membrane
With a less stronger microscope the nucleus ,cell membrane and cytoplasm are visible,but in plant cell cell wall and chlorophalast
You would use a light microscope to see the parts of a cell. This type of microscope uses light to magnify the structures within a cell, allowing you to visualize organelles such as the nucleus, mitochondria, and cell membrane.
A drop of milk under a very powerful microscope would reveal individual fat globules, casein proteins, and other components suspended in a liquid. The fat globules in milk are typically around 1 to 10 microns in size, so they would be visible in detail under such a microscope.
Definitely! Raccoons are powerful animals, and will with out a doubt move a rock for a meal.
If you could examine a mineral with a powerful microscope that reveals atoms and ions, you would see the arrangement of individual atoms within the crystal lattice structure of the mineral. This would give you insight into the bonding between atoms, the types of elements present, and the overall crystal morphology of the mineral at a microscopic level.
Another name for the cell membrane is the plasma membrane. It is a semi-permeable membrane that surrounds the cytoplasm of a cell, providing structure and regulating the movement of substances in and out of the cell.
We would normally use a microscope to do this.
Scientists would typically use an electron microscope to determine if a bacteria has a virus. Electron microscopes have high magnification and resolution capabilities, allowing them to visualize viruses, which are smaller than bacteria. This type of microscope is crucial for studying the ultrastructural details of viruses interacting with bacteria.
---- You would use the light microscope. The electron microscope would be unnecessary in this situation, due to its high magnification levels.
The thin boundary of a vacuole, known as the tonoplast, may or may not be visible under a light microscope depending on the staining used, the type of vacuole, and the resolution of the microscope. In most cases, you would need an electron microscope to clearly visualize the tonoplast.
A scientist would use a light microscope to determine the size and shape of a cell. A light microscope uses visible light to illuminate the object being viewed. Light microscopy is used to observe the overall size and shape of a cell. An electron microscope is used to observe the structure and contents of a cell, including membrane-bound organelles.