Object Must Be Placed at 15cm from Convex Mirror for Half Size Image

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To achieve a half-size image using a convex mirror with a 30cm focal length, the object must be placed at a specific distance. The focal length is negative, indicating the nature of the convex mirror. Key equations include 1/Do + 1/Di = 1/F and I/O = Di/Do, with the image distance (Di) being negative for virtual images. Understanding these relationships is crucial for determining the correct object distance (Do). The discussion emphasizes the importance of applying these formulas accurately to find the solution.
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A virtual image is formed by a convex mirror that has a 30cm focal length. Where must the object be placed if the image is to be half the size of the object?



I know that since the mirror is convex F is negative (F is the focal length). Useful equations are 1/Do + 1/Di = 1/F, where Do is the objects distance and Di is the images distance. I/O = Di/Do, where I is the height of the image and O is the height of the object. And O/I = F/F-Di.



I'm not really sure on where to start could some one give me some pointers. :confused:

I = Ox(1/2) or 2I = O

F= -30cm
 
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Hello,

The amplification I/O also equls to \frac{|D_i|}{|D_o|} when we talk about near-axis light.
Be careful and recall that the image is a virtual one and therefore D_i is a negative value in Gauss' formula.


Best regards
 
Thanks for the tip :D
 

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