Wiki User
∙ 11y agoyou'll see more detail of the cell
Wiki User
∙ 11y agoViewing cells under high power allows for greater magnification and resolution, which can help in observing fine cellular structures and details. This can provide a better understanding of cell morphology and organization, as well as identification of cellular components such as organelles. High power magnification can also aid in studying cell processes and interactions more closely.
Robert Hooke discovered cells when he observed a thin slice of cork under a microscope and saw small compartments that reminded him of the rooms that monks lived in, which were called cells. This observation led to the term "cell" being used to describe the basic structural unit of living organisms.
low power objective lens to locate and focus on the specimen before moving to higher magnifications.
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.
It is best to apply Protoslo to glass slides before viewing, as it helps prevent bubbles and ensures a clear and even dispersion of the sample. Applying Protoslo to the slide will help improve the visualization of the sample under the microscope.
Staining microbial specimens allows for better visualization of their structures and morphology under a microscope. It increases the contrast between the cells and the background, making them easier to identify and study. Staining also helps to highlight specific features or organelles within the cells.
Leeuvenhoek
he found cells of course
when viewing objects under high-power, the field of view is smaller, but you are able to see more details.
when viewing objects under high-power, the field of view is smaller, but you are able to see more details.
when viewing objects under high-power, the field of view is smaller, but you are able to see more details.
10x
10x
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when viewing objects under high-power, the field of view is smaller, but you are able to see more details.
Pretty sure no, can't see cell membrane under low power.
When viewing an object under higher magnification, you can see a larger field of view and take in more surrounding details. However, the resolution or sharpness of the image may decrease slightly compared to viewing at lower magnification, which can affect the ability to see fine details or textures up close.
low