Focal Length of a Plano-convex Lens

AI Thread Summary
The focal length of a Plano-convex lens is determined using the lens maker's equation, specifically for parallel rays of light entering from the flat side. In this scenario, with s set to infinity, the focal length (s') can be calculated as R/(ng - nair), where R is the radius of the lens and ng and nair are the indices of refraction for glass and air, respectively. The focal length is defined as the distance from the focal point to the point where a line through the focus, parallel to the lens axis, intersects the curved surface of the lens. This definition clarifies that the focal length is independent of the light's direction of entry. Understanding this concept is crucial for solving related optical problems.
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The given problem:

What is the focal length of a Plano-convex lens, assuming parallel rays of light from s=∞ is traveling from the flat end of the lens. The lens is a glass hemisphere of radius R. Additionally the index of refraction of glass is higher than that of air.


Homework Equations



General lens maker equation:
ng/s +nair/s' = (ng + nair)/R
==> assuming s=∞; s'=R/(ng-nair)


The Attempt at a Solution



I do not know if the distance to the focal point (i.e., the focal length s', as s=∞) is the distance starting FROM the point where the light hits the lens, or where the light exits the lens?
 
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scar_face said:
The given problem:

What is the focal length of a Plano-convex lens, assuming parallel rays of light from s=∞ is traveling from the flat end of the lens. The lens is a glass hemisphere of radius R. Additionally the index of refraction of glass is higher than that of air.


Homework Equations



General lens maker equation:
ng/s +nair/s' = (ng + nair)/R
==> assuming s=∞; s'=R/(ng-nair)


The Attempt at a Solution



I do not know if the distance to the focal point (i.e., the focal length s', as s=∞) is the distance starting FROM the point where the light hits the lens, or where the light exits the lens?
The focal length is not either of those. It is the distance from the focus to the point where the line through the focus, parallel to the axis of the lens, passes through the curving face. The focal length has nothing to do with the direction from which the light is coming, or, indeed, if there is any light at all!

 
So, what does s' represent in this particular case?
 
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