320mm
A dissecting microscope has a lower magnification than a compound microscope. A dissecting microscope has a bigger work area so you can use it to magnify and still move around what ever your looking at. A compound microscope would be used to look at cells that you could not see with out intense magnification You would have to use a microscope slide for whatever you wanted to look at. Example: A dissecting microscope would be used to figure out the sex of Fruit flys. While a compound would be used if wanted to see the cells of a the fly's eye
In science, the term "microscope field" refers to the area or magnified region that is visible through a microscope lens at any given time. It represents the specific part of the sample or specimen that is being observed under the microscope. The size of the microscope field can vary depending on the magnification and the type of microscope being used.
You would use a stereo microscope to see a whole bug. Stereo microscopes provide a three-dimensional view of larger specimens like bugs due to their low magnification and high depth of field. This allows you to see the bug in detail without having to physically dissect it.
The circle of light seen in a microscope is called the field of view. It refers to the circular area that is visible when looking through the microscope. The size of the field of view can vary depending on the magnification and type of objective lens being used.
Using an electron microscope allows you to identify structures within the nucleus, such as nuclear pores, nuclear lamina, and nucleoli, which are not visible under a light microscope due to their smaller size and lack of contrast in light microscopy. Additionally, electron microscopy can reveal fine details of chromatin organization and nuclear envelope structure that are not easily resolved with a light microscope.
A dissecting microscope has a lower magnification than a compound microscope. A dissecting microscope has a bigger work area so you can use it to magnify and still move around what ever your looking at. A compound microscope would be used to look at cells that you could not see with out intense magnification You would have to use a microscope slide for whatever you wanted to look at. Example: A dissecting microscope would be used to figure out the sex of Fruit flys. While a compound would be used if wanted to see the cells of a the fly's eye
The field of view in a microscope is typically measured using a ruler or a stage micrometer slide that has a scale etched onto it. By calibrating the microscope with these reference tools, you can determine the size of the field of view at different magnifications.
This process is called calculating the field of view diameter on a microscope. It involves measuring the diameter of the field of view using a ruler and knowing the magnification of the objective lens to determine the actual size of objects viewed under the microscope.
Calculating the diameter of the field helps determine the field of view under the specific objective lens magnification you are using. This information is crucial for accurate measurements and observing the size, orientation, and movement of objects on the microscope slide. It also helps in understanding the scale of the objects being viewed.
In science, the term "microscope field" refers to the area or magnified region that is visible through a microscope lens at any given time. It represents the specific part of the sample or specimen that is being observed under the microscope. The size of the microscope field can vary depending on the magnification and the type of microscope being used.
ribosomes are not seen by using a light microscope bcz of its small size
You would use a stereo microscope to see a whole bug. Stereo microscopes provide a three-dimensional view of larger specimens like bugs due to their low magnification and high depth of field. This allows you to see the bug in detail without having to physically dissect it.
As the magnification of the objective increases, the FOV decreases
The circle of light seen in a microscope is called the field of view. It refers to the circular area that is visible when looking through the microscope. The size of the field of view can vary depending on the magnification and type of objective lens being used.
To measure the size of a microscopic object using a micrometer, you can place the object on a glass slide under a microscope and use the micrometer on the microscope to measure its dimensions in micrometers. Alternatively, you can use image analysis software to measure the object's size based on images taken with a microscope.
Cell size is measured in nanometers (nm) using a calibrated scale on the microscope objective.
M=O/A magnification = observed size/actual size