365084 A thin prism \({P_1}\) with angle \(4^\circ \) and made from a glass of refractive index 1.54 is combined with another thin prism \({P_2}\) made from glass of refractive index 1.72 to produce dispersion wihtout deviation. The angle of the prism \({P_2}\) is
365086 A thin prism having refracting angle 10° is made of glass of refractive index 1.42. This prism is combined with another thin prism of glass of refractive index 1.7. This combination produces dispersion without deviation. The refracting angle of second prism should be :-
365087
Statement A :
A white light on passing through prism splits into its component colour such that the red light emerges nearest to the base of the prism.
Statement B :
Wavelength of red light is more than other component colours and hence, red light deviates least.
365084 A thin prism \({P_1}\) with angle \(4^\circ \) and made from a glass of refractive index 1.54 is combined with another thin prism \({P_2}\) made from glass of refractive index 1.72 to produce dispersion wihtout deviation. The angle of the prism \({P_2}\) is
365086 A thin prism having refracting angle 10° is made of glass of refractive index 1.42. This prism is combined with another thin prism of glass of refractive index 1.7. This combination produces dispersion without deviation. The refracting angle of second prism should be :-
365087
Statement A :
A white light on passing through prism splits into its component colour such that the red light emerges nearest to the base of the prism.
Statement B :
Wavelength of red light is more than other component colours and hence, red light deviates least.
365084 A thin prism \({P_1}\) with angle \(4^\circ \) and made from a glass of refractive index 1.54 is combined with another thin prism \({P_2}\) made from glass of refractive index 1.72 to produce dispersion wihtout deviation. The angle of the prism \({P_2}\) is
365086 A thin prism having refracting angle 10° is made of glass of refractive index 1.42. This prism is combined with another thin prism of glass of refractive index 1.7. This combination produces dispersion without deviation. The refracting angle of second prism should be :-
365087
Statement A :
A white light on passing through prism splits into its component colour such that the red light emerges nearest to the base of the prism.
Statement B :
Wavelength of red light is more than other component colours and hence, red light deviates least.
365084 A thin prism \({P_1}\) with angle \(4^\circ \) and made from a glass of refractive index 1.54 is combined with another thin prism \({P_2}\) made from glass of refractive index 1.72 to produce dispersion wihtout deviation. The angle of the prism \({P_2}\) is
365086 A thin prism having refracting angle 10° is made of glass of refractive index 1.42. This prism is combined with another thin prism of glass of refractive index 1.7. This combination produces dispersion without deviation. The refracting angle of second prism should be :-
365087
Statement A :
A white light on passing through prism splits into its component colour such that the red light emerges nearest to the base of the prism.
Statement B :
Wavelength of red light is more than other component colours and hence, red light deviates least.
365084 A thin prism \({P_1}\) with angle \(4^\circ \) and made from a glass of refractive index 1.54 is combined with another thin prism \({P_2}\) made from glass of refractive index 1.72 to produce dispersion wihtout deviation. The angle of the prism \({P_2}\) is
365086 A thin prism having refracting angle 10° is made of glass of refractive index 1.42. This prism is combined with another thin prism of glass of refractive index 1.7. This combination produces dispersion without deviation. The refracting angle of second prism should be :-
365087
Statement A :
A white light on passing through prism splits into its component colour such that the red light emerges nearest to the base of the prism.
Statement B :
Wavelength of red light is more than other component colours and hence, red light deviates least.