Image Distance and Magnification

AI Thread Summary
The discussion centers on calculating the image position and magnification for an object placed 23.4 cm from a silvered spherical glass ornament with a diameter of 5.70 cm. The object is treated as a convex mirror, and the initial calculations yield an image position of -1.12 cm and a magnification of 0.048. However, the poster doubts the accuracy of these results and seeks clarification on potential errors in their arithmetic. Other participants suggest redoing the calculations to verify the results. Ultimately, the initial calculations were confirmed to be incorrect.
erik-the-red
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An object is a distance of 23.4 cm from the center of a silvered spherical glass Christmas tree ornament which has a diameter of 5.70 cm.

A What is the position of its image?

B What is the magnification of its image?

I think the object can be treated as a convex mirror.

s (object distance) = 23.4 cm
R = -(5.70)/2 = -2.85 cm

\frac{1}{s} + \frac{1}{s'} = \frac{2}{R}

Using that equation, I get \frac{1}{s'} = \frac{2}{-2.85} - \frac{1}{23.4}.

Then, s' = -1.12 cm.

And, m = -\frac{s'}{s}, so m = .048.

I know for sure that -1.12 cm is not the correct answer, so most likely my second answer is also incorrect.

What did I do wrong?
 
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Did I not provide enough work?
 
Your method is fine but check your arithmetic.
 
Sorry, I still get the same answer.
 
erik-the-red said:
Using that equation, I get \frac{1}{s'} = \frac{2}{-2.85} - \frac{1}{23.4}.

Then, s' = -1.12 cm.
Please redo this calculation.
 
Doc Al,

Indeed, it was incorrect. Thanks!
 

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