Science, asked by pavi3s1haranjukav, 1 year ago

the near point of a hypermetropic eye is 1 m. find the power of the lens required to correct this defect. Assume that near point of normal eye is 25 m.

Answers

Answered by darpanu
0
convex mirror is used for prevention from hypermetropia
Answered by vanshikavikal448
104

 \huge \bold \color{green}   \mid\star { \underline { \underline{ \overline \red{answer}}}}  \star\mid

the eye defect called hypertrophic is corroded by using a convex lens..so, the person requires convex lens spectacle..

we will first calculate the focal length of the convex lens required in this case..this hypermetropic eye can see the nearby object kept at 25 cm (at near point of normal eye) clearly if the image of this object is formed at its own near point which is 1 metre here..so, in this case:-

object distance,u = -25cm (normal near point)

image distance, v = -1m = -100cm ( near point of this defective eye)

Focal length , f = ?? ( to be calculated)

now.. putting these values in the lens formula,

  \huge\bold{ \frac{1}{v}  -  \frac{1}{u} =  \frac{1}{f}  }

we get :

  \huge  \bold{\frac{1}{ - 100}  -  \frac{1}{ - 25} =  \frac{1}{f}}

or

   \huge \bold{- \frac{1}{100} +  \frac{1}{25} =  \frac{1}{f}   }

 \huge \bold{ \implies  \frac{ - 1 + 4}{100} =  \frac{1}{f}   }

  \huge \bold{\implies \:  \frac{1}{f}  =  \frac{3}{100} }

 \huge \bold {\implies \: f =  \frac{100}{3} }

 \huge \bold{\: f = 33.3cm}

thus, the focal length of the concave lens required is +33.3cm ..we will now calculate the follower, please note that 33.3cm is equal to 33.3/100m or 0.33m Now,

 \bold{power \: p \:  =  \frac{1}{f(in \: metres)} }

 \implies \: p =  \frac{1}{ + 0.33}  \\  =  +  \frac{ 100}{3.3}  \\  \\   =  + 3.0D

so, the power of convex lens required is +3.0 dioptres...

 \huge \color{green} \star { \underbrace \red {\mathfrak{solved}} } \star

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