A telescope can resolve two stars separated by `4.6 xx 10^(-6) radian`. If wavelength of light used is `5460 Å`, what is the aperture of the objective of telescope ?

A telescope is used to resolve two stars separated by 4.6xx10^(-6) rad. If the wavelength of light used is 5460 Å , what should be the aperture of the objective of the telescope ?

A telescope is used to resolve two stars separated by 4.6xx10^(-6) rad. If the wavelength of light used is 5460 Å , what should be the aperture of the objective of the telescope ?

A telescope is used to resolve two stars separated by 4.6 xx 10^(-6) radian.If the wavelength fo light used is 5,460 overset @A ,what shold be the aperture of the objective of the telescope?

A telescope is used to resolve two stars having an angular separation of 3.66xx10^(-6) radian. What is the diameter of the objective of the telescope if monochromatic light of wavelength 6000 Å is used?

A binary star system is observed using a telescope. The angular separation between both the stars is 5 xx 10^(-6) radians. Calculate the aperture of objective of the telescope if light of wavelength 5,500 Å is used.

If aperture diameter of telescope is 10m and distance Moon and Earth is 4 xx 10^(5) Km . With wavelength of lightis 5500 Å . The minimum separation between objects on surface of Moon, so that they are just resolved is close to :

If aperture diameter of telescope is 10m and distance Moon and Earth is 4 xx 10^(5) Km . With wavelength of lightis 5500 Å . The minimum separation between objects on surface of Moon, so that they are just resolved is close to :

If aperture diameter of telescope is 10m and distance Moon and Earth is 4 xx 10^(5) Km . With wavelength of lightis 5500 Å . The minimum separation between objects on surface of Moon, so that they are just resolved is close to :