How Does Bisecting a Lens Affect Its Focal Length?

AI Thread Summary
Bisecting a convex lens horizontally maintains its focal length because the shape of the refractive surfaces remains unchanged, while a vertical bisecting alters the radius of curvature, resulting in a new focal length of 2f. This principle applies similarly to concave lenses, where a vertical cut also modifies the focal length due to changes in surface shape. The focal length formula f = R/2 illustrates the relationship between radius of curvature and focal length. Overall, the orientation of the cut significantly impacts the optical properties of the lens. Understanding these effects is crucial for lens design and application in optics.
Alche
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1)Why when a convex lens having radius of curvature R, focal length f and refractive index μ is

bisected horizontally along the principal axis its focal length remains the same, whereas when

it is bisected vertically focal length becomes 2f? Does the same thing happens in the case of

concave lens too?
 
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Hi Alche! :wink:

Tell us what you think, and then we'll comment. :smile:
 
Tell us what you think, and then we'll comment. :smile:

Well, I think when we bisect the convex lens vertically its radius of curvature becomes R/2 so the focal length becomes 2f.

And I am sure the same things happens with concave lens too :-p:smile:
 
Hi Alche! :smile:

To be honest, I can't remember the formula :redface:,

but yes the vertical cut changes the focal length because it changes the shape of the surface the light refracts through (and so yes, it's the same for a convex lens) …

the horizontal cut doesn't change the shape of the surfaces, it only makes the lens smaller, so the focal length stays the same. :smile:
 
Thanks Sir :smile:

focal length of the lens f = R/2, where R is the radius of curvature of the given lens
 
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