To determine how many pith cells would fit across the diameter of a low-field microscope view, we first need to know the average size of a pith cell, which is typically around 0.1 to 0.5 mm in diameter. Low-field microscopes usually have a field of view diameter ranging from about 1 mm to 5 mm. Therefore, depending on the size of the pith cells and the specific field of view, approximately 2 to 50 pith cells could fit across the diameter of the microscope's view.
none because........ sorry a hair can have 10000 cells. its amazing how little as a piece of hair have 10000 cells
none because........ sorry a hair can have 10000 cells. its amazing how little as a piece of hair have 10000 cells
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A simple version of a compound microscope was used to discover cells. Robert Hooke first described cells in 1665, using a compound microscope. Soon after, Anton van Leeuwenhoek also studied cells using a microscope with more advanced lenses.
scanning electron microscope
Yes, a 900x microscope can see blood cells. Blood cells are typically between 6 to 8 micrometers in diameter, which is well within the resolution range of a 900x microscope.
none because........ sorry a hair can have 10000 cells. its amazing how little as a piece of hair have 10000 cells
Single cells are the smallest cells that can preform all of the function in life and cannot be seen without a microscope. The above answer should say most cells can not be seen without a microscope. There are exceptions to this rule as say a chicken egg or 2 foot long strands of neurons are also single cells.
Yes, cells can be seen with a microscope.
A light microscope is capable of viewing cells.
none because........ sorry a hair can have 10000 cells. its amazing how little as a piece of hair have 10000 cells
A light microscope is commonly used to discover cells due to its ability to visualize small structures like cells at a high resolution. Additionally, electron microscopes can also be utilized for more detailed imaging of cells at the nanoscale level.
Microscope is the instrument used in studying cells, allowing scientists to view cells in detail and observe their structure and function. Different types of microscopes, such as light microscopes and electron microscopes, are used depending on the level of detail needed for the study.
Individual cells are not visible under an electron microscope because the resolution of the microscope is not high enough to distinguish the borders of individual cells. The electron microscope's resolution is limited by the wavelength of electrons used, preventing the visualization of single cells. Cells can be seen collectively as tissues or structures under an electron microscope.
The microscope was the invention that allowed us to discover cells. In the 17th century, with the improvement of microscope technology, scientists were able to observe and characterize cells for the first time.
Because cells are way to small to see without a microscope.
Cells can be seen under a microscope because they are transparent and the microscope uses lenses to magnify and focus light on the cells, making them visible to the human eye.