In the fraunhaufer differaction from a s...

In the fraunhaufer differaction from a single slit illuminated by polychromatic light, the first minimum with wavelength `lamda_(1)` is found to be coincident with the third minimum at `lamda_(2)`. Then find the value of `(lamda_(1))/(lamda_(2))`

Similar Questions

Explore conceptually related problems

In the far field diffraction pattern of a single slit under polychromatic illumination, the first minimum with the wavelength lambda_1 is found to be coincident with third maximum at lambda_2 . So

In a single slit diffraction pattern, the first minima for a wavelength lamda_(1)=6000 Å coincides with the first maxima for a wavelength lamda_(2) . Then the value of lamda_(2) is

In a biprism experiment, if the 6th bright bannd with a wavelength lamda_(1) coincides with 7th dark band with a wavelength lamda_(2) , then the ratio of the wavelengths ((lamda_(1))/(lamda_(2))) is

What should be the slit width to obtain pronounced diffraction with a single slit illuminated by light of wavelength lamda ?

In a single slit diffraction experiment the first minimum for red light of wavelength 6600Å coincides with the first maximum for other light of wavelength lamda . The value of lamda is

In a single slit diffraction experiment, first minimum for a light of wavelength 540 nm coincides with the first maximum of another wavelength lamda' . Then lamda' is

For Balmer series, wavelength of first line is lamda_(1) and for Brackett series, wavelength of first line is lamda_(2) then (lamda_(1))/(lamda_(2))

In the diffraction pattern due to a single slit of width 'd' with incident light of wavelength 'lamda', at an angle of diffraction 'theta', the condition for first minimum is

If the minimum wavelength of Balmer series is lamda_(1) and the maximum wavelength of Lyman series is lamda_(2) , then ......

In the fraunhaufer differaction from a single slit illuminated by polychromatic light, the first minimum with wavelength `lamda_(1)` is found to be coincident with the third minimum at `lamda_(2)`. Then find the value of `(lamda_(1))/(lamda_(2))`

Similar Questions

Recommended Questions