![The numerical aperture of objective of a microscope is 0.12 . The limit of resolution, when light of wavelength 6000 A is used to view an object is: The numerical aperture of objective of a microscope is 0.12 . The limit of resolution, when light of wavelength 6000 A is used to view an object is:](https://dwes9vv9u0550.cloudfront.net/images/7702334/7c9f595f-ed2f-4460-a610-5956d7dadd46.jpg)
The numerical aperture of objective of a microscope is 0.12 . The limit of resolution, when light of wavelength 6000 A is used to view an object is:
![State whether the following statement is True or False.In a telescope the focal length of eye lens is always more than the objective lens. State whether the following statement is True or False.In a telescope the focal length of eye lens is always more than the objective lens.](https://dwes9vv9u0550.cloudfront.net/images/1063725/9a9115eb-bfa1-4ceb-85af-32f4b56ca1ab.jpg)
State whether the following statement is True or False.In a telescope the focal length of eye lens is always more than the objective lens.
![1 Parts of the Microscope Ocular (eyepiece) Interpupillary adjustment Body Arm Coarse adjustment knob Fine focus adjustment knob Stage adjustment knobs. - ppt download 1 Parts of the Microscope Ocular (eyepiece) Interpupillary adjustment Body Arm Coarse adjustment knob Fine focus adjustment knob Stage adjustment knobs. - ppt download](https://images.slideplayer.com/35/10417604/slides/slide_5.jpg)
1 Parts of the Microscope Ocular (eyepiece) Interpupillary adjustment Body Arm Coarse adjustment knob Fine focus adjustment knob Stage adjustment knobs. - ppt download
![SOLVED: The equation that describes the resolving power of a microscope is: Resolving power Wavelength of illumination/2 X Numerical aperture (the numerical aperture of an oil immersion objective is 1.30). If the SOLVED: The equation that describes the resolving power of a microscope is: Resolving power Wavelength of illumination/2 X Numerical aperture (the numerical aperture of an oil immersion objective is 1.30). If the](https://cdn.numerade.com/ask_previews/9c7a1d80-ad7e-4285-88c6-e64eff0e46db_large.jpg)
SOLVED: The equation that describes the resolving power of a microscope is: Resolving power Wavelength of illumination/2 X Numerical aperture (the numerical aperture of an oil immersion objective is 1.30). If the
![Calculate the resolving power of a telescope when light of wavelength 540 nm is used. Diameter o... - YouTube Calculate the resolving power of a telescope when light of wavelength 540 nm is used. Diameter o... - YouTube](https://i.ytimg.com/vi/R09MKCKKTQw/maxresdefault.jpg)
Calculate the resolving power of a telescope when light of wavelength 540 nm is used. Diameter o... - YouTube
![SOLVED: ower, or else the objective lens will break the microscope slide. The objective lens itself can be easily damaged by such an accident. Magnification Working distance Numerical aperture (related resolution) 10" SOLVED: ower, or else the objective lens will break the microscope slide. The objective lens itself can be easily damaged by such an accident. Magnification Working distance Numerical aperture (related resolution) 10"](https://cdn.numerade.com/ask_images/618dcc48567f4677afe424afc7091f92.jpg)
SOLVED: ower, or else the objective lens will break the microscope slide. The objective lens itself can be easily damaged by such an accident. Magnification Working distance Numerical aperture (related resolution) 10"
![How does the resolving power of a microscope change on (i) decreasing wavelength of light (ii) d... - YouTube How does the resolving power of a microscope change on (i) decreasing wavelength of light (ii) d... - YouTube](https://i.ytimg.com/vi/pBnisOwmiUw/maxresdefault.jpg)
How does the resolving power of a microscope change on (i) decreasing wavelength of light (ii) d... - YouTube
![Calculate the resolving power of a telescope,whose objective lens has an aperture of 1.0 m for the wave-length of light 500 nm? Calculate the resolving power of a telescope,whose objective lens has an aperture of 1.0 m for the wave-length of light 500 nm?](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/647482876_web.png)