REFRACTION AT SPHERICAL SURFACES

Refraction|Law's Of Refraction Of Light |Refraction By Spherical Lenses|Important Terms In Any Spherical Lens

Focal Length OF Lens||Lens In Medium||Lens Ray Diagram||Discussion OF Sheet Refraction By Spherical Surface Question -42 to 47

Refraction Of Light|The Refractive Index|Refraction BY Spherical Lenses

Lateral Magnification For Refracting Spherical Surface

Refraction Concept||Plane Surface Refraction||Spherical Surface Refraction||Lateral Shift OF Ray by Slab

Refraction From Curved Surface||Formula & Magnification||Principle Foci||Power OF a spherical Surface||Examples

The equation of refraction at a spherical surface is mu_2/v-mu_1/u=(mu_2-mu_1)/R Taking R=oo , show that this equation leads to the equation (Real depth)/(Apparent depth)=mu_2/mu_1 for fraction at a plane surface.

The equation of refraction at a spherical surface is mu_2/v-mu_1/u=(mu_2-mu_1)/R Taking R=oo , show that this equation leads to the equation (Real depth)/(Apparent depth)=mu_2/mu_1 for fraction at a plane surface.

In the figure, a point object O is placed in air. A spherical boundry separates two media of radius of curvature 1.0 m. AB is principal axis. The separation between the images formed due to refraction at spherical surface is

In the figure, a point object O is placed in air. A spherical boundry separates two media of radius of curvature 1.0 m. AB is principal axis. The separation between the images formed due to refraction at spherical surface is