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I bet your'e the same person that posted the other questions too. I'm guessing you had to do the life is cellular worksheet also? Anyway, I think the answer is electrons.
What else can I help you with?
Transmission electron microscopes can be used to explore cell and large molecules?
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What is a feature transmission electron microscope has but not light microscopes?
The ability to achieve much higher magnifications and resolutions than light microscopes due to a much shorter wavelength of electrons. Transmission electron microscopes can visualize structures at the atomic level, which is not possible with light microscopes.
Which microscope is use to study internal parts of a cell?
An electron microscope is typically used to study the internal parts of a cell because of its high resolution and magnification capabilities. Transmission electron microscopes (TEMs) and scanning electron microscopes (SEMs) are commonly employed for this purpose.
What are two main types of electron microscopes?
there are several kind of different , we can separate : 1- Methods of analysis 2- properties of Methods of analysis 3-properties of their structure 4-resolution and resoiving power of their (by : S.M Zendehbad)
Are cells discovered using electron microscopes?
Yes, cells can be visualized and discovered using electron microscopes due to their high magnification and resolution capabilities. Electron microscopes can reveal details at the nanometer scale, allowing for the visualization of organelles and structures within cells that may not be visible with light microscopes.
Why are transmission position microscopes and acoustic microscopes important tools for understanding how living cells function?
Both transmission position microscopes and acoustic microscopes are important tools for understanding how living cells function because they provide high-resolution imaging of cellular structures down to the nanometer scale. Transmission electron microscopes allow visualization of internal cellular structures, while acoustic microscopes use sound waves to examine cell mechanics and properties. By using these tools, researchers can gain insights into cell structure, dynamics, and function, which is crucial for advancing our understanding of biological processes.
Why are electron microscopes better than light microscopes when looking at cells?
Electron microscopes have higher resolution and magnification than light microscopes, allowing for the visualization of smaller structures within cells, such as organelles and macromolecules. Additionally, electron microscopes use electron beams, which have shorter wavelengths than visible light, enabling them to capture finer details of cell structures.
What type of microscope would a biologist use to study the protein molecules on the surface of a cell?
A biologist would likely use an electron microscope, specifically a scanning electron microscope (SEM), to study the protein molecules on the surface of a cell. The high magnification and resolution of an SEM allow for detailed imaging of protein structures at the nanometer scale.
What microscope can you use to look at a cell?
A compound light microscope is commonly used to view cells. It uses multiple lenses to magnify small objects and can provide detailed images of cellular structures. Transmission electron microscopes and scanning electron microscopes are also used to view cells at higher magnifications.
What type of microscope do you need to see a centriole?
To see a centriole, you need an electron microscope, specifically a transmission electron microscope (TEM) or a scanning electron microscope (SEM). These microscopes provide the high resolution necessary to visualize the small structures within a cell, as centrioles are typically around 200 nanometers in diameter, far smaller than what light microscopes can resolve.
Are the instrument used to magnify and visualise cells and cellular component?
Yes, instruments used to magnify and visualize cells and cellular components include microscopes, such as light microscopes and electron microscopes. Light microscopes utilize visible light to magnify specimens, while electron microscopes use electron beams for higher resolution imaging at the nanoscale. These tools enable scientists to study cell structure, function, and interactions in detail.
What are the Advantages of electron microscope over light microscope?
Electron microscopes offer much higher resolution and magnification capabilities compared to light microscopes. They allow for visualization of smaller structures and details, such as individual molecules, viruses, and cell organelles. Electron microscopes also have the ability to produce 3D images and can differentiate between materials based on their electron densities.
