A concave mirror produces a real image of magnification 1/2 when object is placed at a distance of 60cm from it.Pls help
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hey dear friend
Initial obj. dist = -60(real object)
". magnification (m) = -1/2 (as both obj and image are real)
We know , m= -f/(u-f) [f=focal length]
f= -20cm
Now , obj dist = u'
magnification(m')=2 (as image is virtual of real object)
f=-20 cm
We know , m= -f/(u'-f)
2=20/(u'+20)
u'=-10cm
Hence , the obj should at a distance of 10 cm in front of the mirror.
if it helps then pls follow for any kinda help i will surely helps u dear
Initial obj. dist = -60(real object)
". magnification (m) = -1/2 (as both obj and image are real)
We know , m= -f/(u-f) [f=focal length]
f= -20cm
Now , obj dist = u'
magnification(m')=2 (as image is virtual of real object)
f=-20 cm
We know , m= -f/(u'-f)
2=20/(u'+20)
u'=-10cm
Hence , the obj should at a distance of 10 cm in front of the mirror.
if it helps then pls follow for any kinda help i will surely helps u dear
KGB:
are u sure
hmm
Answered by
0
Answer:
a concave mirror produces a real image of magnification 1/2, when an object is placed at a distance of 60 cm from it. where the object should be placed, so that a virtual image of double the size is formed by the mirror.
Explanation:
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