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Wow! Have you ever seen an objective lens compound microscope? It’s amazing! You can get up close and personal with the tiniest of objects. With this type of microscope, you can magnify objects up to 1000x their original size - talk about getting a good look! Plus, it’s easy to use and set up. So if you’re looking for a way to explore the microscopic world around us, an objective lens compound microscope is definitely worth checking out.

Which Type Of Objective Lens Are There In Compound Microscope? [Solved]

Well, there are three types of objective lenses you can choose from: low power, high power and oil immersion. So, depending on what you need it for, pick the one that’s right for you!

  1. Magnification: The objective lens of a compound microscope is responsible for magnifying the image of the specimen being observed. It typically has a range of magnification from 4x to 100x, allowing for detailed observation of small objects.

  2. Numerical Aperture: The numerical aperture (NA) is an important factor in determining the resolution and clarity of the image produced by a compound microscope’s objective lens. A higher NA means that more light can be collected, resulting in a brighter and sharper image.

  3. Working Distance: The working distance is the distance between the objective lens and the specimen being observed, which affects how much detail can be seen in an image. Longer working distances allow for more detail to be seen but also reduce magnification power due to increased light dispersion over longer distances.

  4. Field Of View: The field of view (FOV) determines how much area can be seen through an objective lens at any given time, with larger FOVs allowing for more area to be viewed at once but reducing overall resolution due to increased light dispersion over wider areas.

  5. Parfocalization: Parfocalization refers to when multiple objectives lenses are used on one microscope and remain focused on one plane when switching between them; this allows for quick changes between different magnifications without having to refocus each time, making it easier and faster to observe specimens at different levels of magnification without losing focus or clarity in images

A compound microscope is a powerful tool! It uses an objective lens to magnify objects up to 1,000 times their original size. This makes it great for studying tiny things like cells and bacteria. Plus, the lens can be adjusted to get different levels of magnification. Pretty cool, huh?