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∙ 11y agoThe diaphragm, also known as the iris or aperture diaphragm, controls the amount of light passing through the specimen in a microscope. By adjusting the diaphragm opening, you can regulate the intensity and focus of the light on the specimen for better visibility.
stage opening
The diaphragm or iris controls the amount of light passing through the specimen in a microscope. By adjusting the diaphragm opening, the amount of light reaching the specimen can be regulated, thus providing better clarity and contrast during observation.
The diaphragm or iris controls the amount of light passing through a specimen in a microscope. By adjusting the diaphragm, you can regulate the intensity and focus of light reaching the specimen, improving visibility and clarity during observation.
The diaphragm, located beneath the stage of the microscope, controls the amount of light passing through the specimen. By adjusting the diaphragm opening, you can regulate the intensity and focus of the light on the specimen to improve visibility and clarity.
The diaphragm or iris controls the amount of light that passes through the specimen on a microscope. By adjusting the diaphragm, you can regulate the intensity and focus of the light.
the diaphragm
stage opening
The diaphragm or iris diaphragm controls the amount of light that passes through the specimen on a microscope. By adjusting the diaphragm, you can regulate the brightness and contrast of the image.
The diaphragm or iris controls the amount of light passing through a specimen in a microscope. By adjusting the diaphragm, you can regulate the intensity and focus of light reaching the specimen, improving visibility and clarity during observation.
The diaphragm or iris controls the amount of light passing through the specimen in a microscope. By adjusting the diaphragm opening, the amount of light reaching the specimen can be regulated, thus providing better clarity and contrast during observation.
The diaphragm, located beneath the stage of the microscope, controls the amount of light passing through the specimen. By adjusting the diaphragm opening, you can regulate the intensity and focus of the light on the specimen to improve visibility and clarity.
After leaving the condenser in a compound light microscope, light passes through the specimen on the slide.
stage opening
The diaphragm or iris controls the amount of light that passes through the specimen on a microscope. By adjusting the diaphragm, you can regulate the intensity and focus of the light.
After passing through the specimen in an electron microscope, the electron beam is detected by a sensor, which generates an image based on the interactions of the electrons with the specimen. The image can reveal detailed information about the specimen's structure, composition, and morphology.
A diaphragm on a microscope controls the amount of light passing through the specimen. By adjusting the diaphragm, you can increase or decrease the brightness of the light, which can help improve contrast and clarity in the image.
The iris adjustment on a microscope controls the amount of light passing through the specimen. By adjusting the iris, you can increase or decrease the brightness of the image, which can help improve clarity and contrast when viewing the specimen.