In Young's double slit experiment, the 1...

In Young's double slit experiment, the 10th maximum of wavelength `lambda_(1)` is at distance of `y_(1)` from the central maximum. When the wavelength of the source is changed to `lambda_(2)` , 5th maximum is at a distance of `y_(2)` from its central masximum. Then `(y_(1))/(y_(2))` is

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In young's double slit experiment, the 10th maximum of wavelength lambda_(1) , is at a distance of y_(1) from the central maximum. When the wavelength of the source is changed to lamda_(2) , 5^(th) maximum is at a distance of y_(2) from its central maximum. The ratio ( y_(1)/y_(2) ) is

In Young's double slit experiment, the 10^(th) maximum of wavelength lambda_(1) is at a distance y_(1) from its central maximum and the 5^(th) maximum of wavelength lambda_(2) is at a distance y_(2) from its central maximum. The ratio y_(1)//y_(2) will be

In Young's double slit experiment, the 8th maximum with wavelength lambda_1 is at a distance d_1 from the central maximum and the 6th maximum with a wavelength lambda_2 is at a distance d_2 . Then (d_1//d_2) is equal to

In Young's double slit experiment the 7th maximum with wavelength lambda_(1) is at a distance d_(1) , and that with wavelength lambda_(2) is at distance d_(2) . Then d_(1)//d_(2) is

In Young's double slit experiment, the 10th maximum of wavelength `lambda_(1)` is at distance of `y_(1)` from the central maximum. When the wavelength of the source is changed to `lambda_(2)` , 5th maximum is at a distance of `y_(2)` from its central masximum. Then `(y_(1))/(y_(2))` is

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