Microscope Magnification Calculation Explained

What is the angular magnification of a microscope using an objective with a magnification of 24.9 and an ocular with a magnification of 9.40?

Final answer: For objective magnification of 24.9 and ocular magnification of 9.40, the total magnification of the microscope is approximately 234.26. What does this mean and how is it calculated?

Microscope Magnification Calculation Answered

When using a microscope, the total magnification achieved is calculated by multiplying the magnification of the objective lens by the magnification of the ocular lens. In this case, with an objective magnification of 24.9 and an ocular magnification of 9.40, the total angular magnification is approximately 234.26.

Microscope magnification is an important aspect when it comes to viewing tiny specimens in detail. The total magnification of a microscope is determined by the magnification of the objective lens (the lens closer to the specimen) and the ocular lens (the eyepiece). When these two magnifications are multiplied together, we get the total magnification.

In the scenario provided, with an objective magnification of 24.9 and an ocular magnification of 9.40, we find the total magnification to be approximately 234.26. This means that when you look through the microscope, you are seeing the specimen at about 234 times its actual size. It is important to note that this calculation assumes perfect lens quality and no atmospheric disturbances.

To calculate the total angular magnification of a microscope, simply multiply the magnification of the objective and ocular lenses together. This formula applies to any microscope setup and allows scientists and researchers to view tiny details with enhanced magnification.

Understanding microscope magnification is crucial for various scientific disciplines, such as biology, chemistry, and materials science. By knowing the total magnification of the microscope, researchers can accurately observe and analyze specimens at a microscopic level.

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