Physics, asked by raj1106, 1 year ago

A convex mirror has focal length of 18cm. The image of an object kept in front of the mirror is half of the height of the object. What is the distance of the object from the mirror? Explain it Neatly.

Answers

Answered by teja48
2
it is in F and P to get minmised image
Answered by SANDHIVA1974
5

The distance of the object from the mirror is 54 cm.

Explanation:

Given :

A convex mirror has focal length of 18 cm. The image of an object kept in front of the mirror is half of the height of the object.

To find : What is the distance of the object from the mirror?

Solution :

A convex mirror has focal length of 18 cm.

Let the object placed at O=x cm.

The image of an object kept in front of the mirror is half of the height of the object.

So, Image is at I=\frac{x}{2}cm

The formula to find the relationship is

\frac{I}{O}= \frac{v}{u}

\frac{\frac{x}{2}}{x}= \frac{v}{u}

v= \frac{u}{2}

Again the focal length formula is

\frac{1}{f}= \frac{1}{u}+\frac{1}{v}

Substitute the values,

\frac{1}{18}= \frac{1}{u}+\frac{1}{\frac{u}{2}}

\frac{1}{18}= \frac{1}{u}+\frac{2}{u}

\frac{1}{18}= \frac{3}{u}

Cross multiply,

u=3\times 18

u=54

Therefore, The distance of the object from the mirror is 54 cm.✅

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