Electron microscope
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.
The cell structures within a leaf cannot be seen with a stereo microscope. A microscope that is equipped with transmitted light and also stronger magnification is needed in order to do so.
Chromosomes are structures in the nucleus of the cell which contain DNA and can best be seen when the cell is dividing.
In a plant cell these 'void' areas are spaces of the central vacuole, delimitted by tonoplast and contaning the cell sap.
The structure that is seen is the cell wall. This keeps the shape of the cell and is only found in plant cells. The organelles that can be see in a stained onion cells all depends on your microscope. Under a x400 light microscope we could see the cell wall, cell membrane, nucleus and cytoplasm,
Chloroplasts, Cell wall, and Plants have really large Vacuoles compared to Animals.
The endoplasmic reticulum is a fine network of tubular structures that crisscross the cellular cytoplasm. It plays a key role in protein synthesis, lipid metabolism, and calcium storage within the cell.
Plant cells have structures such as a cell wall, chloroplasts, and a large central vacuole that are not present in animal cells. These structures are unique to plant cells and play important roles in functions like photosynthesis, support, and storage.
A transmission electron microscope (TEM) is used to reveal fine details of cell organelles, spindle fibers, and chromosomes during cell division. TEM provides high-resolution images by passing electrons through thin samples, allowing for the visualization of structures at the nanometer scale. This makes it ideal for studying intricate cellular components and their organization.
The structures allow the cell to perform specific functions.
The structures allow the cell to perform specific functions.
The structures allow the cell to perform specific functions.