For teaching students about slides under a microscope, the printed lowercase "e" is used because it is identifiable even if only part of it is visible, and because it is asymmetrical both vertically and horizontally. You can see clearly how its image is changed under the microscope.
The compound refractive microscope inverts the view seen in the eyepiece, creating an upside-down image. When a higher magnification is used, only part of the "e" will fit in the field. This demonstrates that samples should be centered before changing to a higher power, or they may not be where they can be seen.
For teaching students about slides under a microscope, the printed lowercase "e" is used because it is identifiable even if only part of it is visible, and because it is asymmetrical both vertically and horizontally. You can see clearly how its image is changed under the microscope.The compound refractive microscope inverts the view seen in the eyepiece, creating an upside-down image. When a higher magnification is used, only part of the "e" will fit in the field. This demonstrates that samples should be centered before changing to a higher power, or they may not be where they can be seen.
Onion epidermis is a suitable tissue for observing cellular structures with a compound light microscope because it is transparent, allowing light to pass through easily, and the cells are thin enough to view individual cells and structures such as cell walls, nuclei, and chloroplasts. Additionally, the large size of onion cells compared to other plant cells makes it easier to study their internal structures.
suitable for viewing large objects
Microscope
Why is the image of a letter inverted under a microscope?because it has a mirror below the stage ( the one where the specimens are being examind ) it dont reflects sunlight but also the image of a letter
A microscope magnifys or makes things look bigger than they are.
Scientists use the fine adjustment knob on a microscope to make precise adjustments to focus on the specimen at high magnifications. This knob allows for subtle changes in the focal point, which is important for observing fine details on the specimen.
The magnification of an electron microscope is typically higher than that of a compound microscope. Electron microscopes use a beam of electrons to achieve magnification, which allows for greater resolution and the ability to view smaller details compared to compound microscopes that use light. This makes electron microscopes more suitable for viewing ultra-fine details at the nanoscale level.
The density of the nucleus can be seen using the light microscope, because the light microscope enlarges or makes the nucleus bigger.
The microscope makes transparent objects visible to enable study.
An electron microscope uses a beam of electrons to illuminate a specimen
An electron microscope uses a beam of electrons to illuminate a specimen