What is the size of the image of a tree on a man's retina?

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To calculate the size of the image of a 20.0m tree on a man's retina from a distance of 300m, the relevant optical principles and equations must be applied. The equation relating magnification (M) to object and image distances, as well as their respective heights, is crucial. The image distance (di) is determined to be 24.0mm, which corresponds to the length of the eye. The object distance (do) is 300m, and the object height (ho) is 20.0m. By using these values in the magnification formula, the height of the image (hi) can be calculated accurately.
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Homework Statement


A man looks at a tree of height 20.0m a distance of 300m away. the cornea has a radius of curvature of 7.7mm, eye has refractive index of 1.47 and the length of the eye is 24.0mm.

Calculate the size of the image of the tree on the man's retina.


Homework Equations


n1/p+n2/q=n2-n2/R


The Attempt at a Solution


i tired the following but i don't think it is correct
n1=1.47
n2=1.0
R=7.7
p=20

1.47/20+1.0/q=1.47-1.0/7.7
=0.06
 
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but i don't know the focal length...
 
You don't need it at all. I strongly suspect that at least 2 pieces of given information are extraneous, maybe more. Try this equation, relating magnification, M, to distances and height to the image and object.

M=-\frac{d_{i}}{d_{o}}=\frac{h_{i}}{h_{o}}
 
so if i use these values (changing the units of course) is this correct
di=7.7mm
do=300m
hi=24.0mm
ho=20.0m
and then using the magnification i get i can work out the size of the tree?
 
Well, since the image is formed on the back of the eye, di=24.0mm, the length of the eye. Remember that you are trying to solve for the height of the image, hi. This is your one unknown. Your do and ho look fine.
 

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