Finding object distance with converging lenses.

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To find the object distance with a converging lens of focal length 33.7 cm and magnification -2, the relevant equations are 1/f = 1/do + 1/di and M = -di/do. The initial calculations led to confusion in adding fractions correctly, specifically when transitioning from 1/do + 1/2do. After correcting the fraction addition to 3/2do, the object distance can be solved accurately. The final object distance is determined to be 11.23 cm.
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A converging lens with f=33.7 cm yields an image with magnification M=−2. Find the object distance. Give your answer ...

* in terms of centimeters. Do not include units in your answer. They will be assumed to be cm.
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I'm not really sure how to approach this problem. I keep calculating it and getting the wrong answer. I started with the 1/f =1/do + 1/di equation, and know that M = -di/do, but from there my work is probably wrong

-2=-di/do : -2do = -di ----> 2do=di

1/f=1/do + 1/2do

1/f =1/3do

f= 3do
1/3f=do
1/3 * 33.7cm =do
do= 11.23cm =WRONG.
?
 
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Ok, your mistake is going from the 2nd line to the 3rd line.

You didn't add the fractions properly. What is 1+1/2?
 
I'm still confused... 1/f= 3/2do? i don't know where to go from there
 
Solve for 'do' since you know what 'f' is.
 
thanks! i got the right answer this time...
 
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