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Spherical Lens Dynamics: Refraction, Focus, and Optical Design

December 18, 2023 519 0

How does the Spherical Lens Shape Impact Light Refraction?

  • Spherical lenses: Curvature of Optical Precision: A transparent material bound by two surfaces, of which one or both surfaces are spherical, forms a lens. 
    • This means that a lens is bound by at least one spherical surface. 
    • In such lenses, the other surface would be plane. 
  • Double Convex Lens: Optical Prowess through Dual Spherical Surfaces: A lens may have two spherical surfaces, bulging outwards. 
    • Such a lens is called a double convex lens
    • It is simply called a convex lens. 
    • It is thicker at the middle as compared to the edges. 
  • Converging Lenses: Optical Power in Convex Marvels: Convex lenses converge light rays. 
    • Hence convex lenses are also called converging lenses. 
  • Diverging Lenses: Optical Expansion through Concave Marvels: A double concave lens is bounded by two spherical surfaces, curved inwards. It is thicker at the edges than at the middle. 
    • Such lenses diverge light rays. 
    • Such lenses are also called diverging lenses
    • A double concave lens is simply called a concave lens. 
  • A lens, either a convex lens or a concave lens, has two spherical surfaces. 
    • Each of these surfaces forms a part of a sphere.
  • Centre of Curvature  in Lenses: Focal Heart of Optical Precision: The centres of these spheres are called centres of curvature of the lens. 
    • The centre of curvature of a lens is usually represented by the letter C. 
    • Since there are two centres of curvature, we may represent them as C1 and C2. 
  • Principal Axis in Lenses: Mapping the Optical Axis of Precision: An imaginary straight line passing through the two centres of curvature of a lens is called its principal axis. 
    • The central point of a lens is its optical centre.
    •  It is usually represented by the letter O. 
    • A ray of light through the optical centre of a lens passes without suffering any deviation. 
  • Aperture in Spherical Lens: The effective diameter of the circular outline of a spherical lens is called its aperture.
  • Principal Focus on Concave Lens: Convergence of Light Rays: Several rays of light parallel to the principal axis are falling on a convex lens. 
    • These rays, after refraction from the lens, are converging to a point on the principal axis. 
    • This point on the principal axis is called the principal focus of the lens. 
  • Principal Focus on Concave Lens: Divergence of Light Rays: Several rays of light parallel to the principal axis are falling on a concave lens. 
    • These rays, after refraction from the lens, are appearing to diverge from a point on the principal axis. 
    • This point on the principal axis is called the principal focus of the concave lens.
diverging action of a concave lens
(a) Converging action of a convex lens, (b) diverging action of a concave lens
  • If parallel rays pass from the opposite surface of the lens,  another principal focus on the opposite side is made. 
  • Letter F is usually used to represent principal focus. 
    • However, a lens has two principal foci. 
    • They are represented by F1 and F2 . 
  • The distance of the principal focus from the optical centre of a lens is called its focal length. 
  • The letter f is used to represent the focal length.

Spherical Lens Image Formation: Illuminating Perspectives through Ray Diagrams:

  • For drawing ray diagrams in lenses, alike of spherical mirrors, we consider any two of the following rays –
  • (i) A ray of light from the object, parallel to the principal axis, after refraction from a convex lens, passes through the principal focus on the other side of the lens. 
    • In case of a concave lens, the ray appears to diverge from the principal focus located on the same side of the lens.

Spherical Lens Image Formation

  • (ii) A ray of light passing through a principal focus, after refraction from a convex lens, will emerge parallel to the principal axis. 
    • A ray of light appearing to meet at the principal focus of a concave lens, after refraction, will emerge parallel to the principal axis.

Spherical Lens Image Formation

  • (iii) A ray of light passing through the optical centre of a lens will emerge without any deviation. 
    • The ray diagrams for the image formation in a convex lens for a few positions  of  the  object.

Spherical Lens Image Formation

Spherical Lens Image Formation and Optical Variations:

  • Lenses form images by refracting light. 
  • The nature, position and relative size of the image formed by a convex and concave lens for various positions of the object is summarized in the table.
image formed by a convex lens
Nature, position and relative size of the image formed by a convex lens for various
positions of the object.
various positions of the object
The position, size and the nature of the image formed by a convex lens for various positions of the object

In conclusion it can be said that a concave lens will always give a virtual, erect and diminished image, irrespective of the position of the object.

Spherical Lens Sign Convention: Optical Measurements and Focal Insights 

  • For lenses, the sign convention is similar to that used for mirrors.  
  • All the rules for signs of distances are applied except that all measurements are taken from the optical centre of the lens. 
  • According to the convention, the focal length of a convex lens is positive and that of a concave lens is negative.

Spherical Lens Formula: Understanding Relationships in Optics:

  • This formula gives the relationship between object distance (u), image-distance (v) and the focal length (f). 
    • The lens formula is expressed as 1/v – 1/u = 1/f
  • The lens formula given above is general and is valid in all situations for any spherical lens.

Spherical Lens Magnification: Optical Enlargement and Relationships

  • The magnification produced by a lens, similar to that for spherical mirrors, is defined as the ratio of the height of the image and the height of the object. 
  • Magnification is represented by the letter m. 
  • If h is the height of the object and h′ is the height of the image given by a lens, then the magnification produced by the lens is given by,

Optical Enlargement and Relationships

  • Magnification produced by a lens is also related to the object-distance u, and the image-distance v. 
    • This relationship is given by: Magnification (m) = h′/h = v/u

Spherical Lens Power Dynamics: Optical Convergence and Divergence

  • The ability of a lens to converge or diverge light rays depends on its focal length. 
    • Example: A convex lens of short focal length bends the light rays through large angles, by focussing them closer to the optical centre. 
    • Similarly, concave lenses of very short focal length cause higher divergence than the one with longer focal length. 
  • The degree of convergence or divergence of light rays achieved by a lens is expressed in terms of its power. 
  • The power of a lens is defined as the reciprocal of its focal length. 
    • It is represented by the letter P. 
    • The power P of a lens of focal length f is given by: 

Optical Convergence and Divergence

  • The SI unit of power of a lens is ‘dioptre’. 
    • It is denoted by the letter D
  • If ‘f’ is expressed in metres, then, the power is expressed in dioptres. 
  • Thus, 1 dioptre is the power of a lens whose focal length is 1 metre. 1D = 1m-1
  • The power of a convex lens is positive and that of a concave lens is negative
  • Opticians prescribe corrective lenses indicating their powers.

Designing a lens

  • Many optical instruments consist of a number of lenses. 
  • They are combined to increase the magnification and sharpness of the image. 
  • The net power (P ) of the lenses placed in contact is given by the algebraic sum of the individual powers P1 , P2 , P3 , … as P = P1 + P2 + P3 + … 
  • The use of powers, instead of focal lengths, for lenses is quite convenient for opticians. 
  • During eye-testing, an optician puts several different combinations of corrective lenses of known power, in contact, inside the testing spectacles’ frame. 
  • The optician calculates the power of the lens required by simple algebraic addition. 
    • Example: A combination of two lenses of power + 2.0 D and + 0.25 D is equivalent to a single lens of power + 2.25 D. 
  • The simple additive property of the powers of lenses can be used to design lens systems to minimise certain defects in images produced by a single lens. 
  • Such a lens system, consisting of several lenses in contact, is commonly used in the design of lenses of camera, microscopes and telescopes.
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 Final Result – CIVIL SERVICES EXAMINATION, 2023.   Udaan-Prelims Wallah ( Static ) booklets 2024 released both in english and hindi : Download from Here!     Download UPSC Mains 2023 Question Papers PDF  Free Initiative links -1) Download Prahaar 3.0 for Mains Current Affairs PDF both in English and Hindi 2) Daily Main Answer Writing  , 3) Daily Current Affairs , Editorial Analysis and quiz ,  4) PDF Downloads  UPSC Prelims 2023 Trend Analysis cut-off and answer key

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UDAAN PRELIMS WALLAH
Comprehensive coverage with a concise format
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Designed as per recent trends of Prelims questions
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