The fundamental limiting element in resolution is wavelength, since the picture of two particles cannot be viewed separately if it is smaller than the wavelength.
The wavelength of light used to illuminate the object also has an effect on microscope resolution. And how will the wavelength of light affect the magnification of microscope
How will the wavelength of light affect the magnification of microscope
Light wavelength and microscope magnification are inversely related, which implies that the longer the wavelength, the less magnification and vice versa. The magnification specifies how near an item is seen.
The wavelength of light used to illuminate the object also has an effect on microscope resolution. Longer wavelengths of light have worse resolution than shorter wavelengths. As light slows, the wavelength shortens, resulting in higher resolution.
The distance between a wave’s trough and crest is specified as its wavelength. The relationship between wavelength and frequency is proportional.
The visible light range in nanometers ranges from 380nm to 750nm. Another way to change the wavelength is to change the objective lens and the specimen. Light wavelength is inversely related to microscope magnification. The magnification of a microscope reduces as the wavelength rises, and vice versa.