Is that ''In convex mirrors only a small portion of surface is enough to get the...
Is that ''In convex mirrors only a small portion of surface is enough to get the light from the object'' correct or not? And why?
Homework Answers
Yes, as the rays starting from every point of the object goes in every possible direction hence if we are having a small portion only of a convex mirror, all the rays starting from every point of the object will be able to incident on the surface. Hence it is correct.
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Is that ''In convex mirrors only a small portion of surface is
enough to get the...
The side mirrors on cars are convex mirrors. If the side mirror on the driver side...
The side mirrors on cars are convex mirrors. If the side mirror on the driver side of your car has a focal length with a magnitude of 5.80 m and a truck is at a distance of 2.00 m from the mirror, determine the following (a) image distance of the truck (Include the appropriate positive or negative sign.) (b) magnification for this object distance (Include the appropriate positive or negative sign.) Additional Materials Reading
The side mirrors on cars are convex mirrors. If the side mirror on the driver side...
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The side mirrors on cars are convex mirrors. Suppose the side mirror on the driver side...
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A concave mirror (f1 = 14.4 cm) and a convex mirror (f2 = ?5.80 cm) are...
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The side mirrors on cars are convex mirrors. If the side mirror on the driver side of your car has a focal length with a magnitude of 5.80 m and a truck is at a distance of 2.00 m from the mirror, determine the following (a) image distance of the truck (Include the appropriate positive or negative sign.) (b) magnification for this object distance (Include the appropriate positive or negative sign.) Additional Materials Reading
The side mirrors on cars are convex mirrors. If the side mirror on the driver side of your car has a focal length with a magnitude of 7.60 m and a truck is at a distance of 8.00 m from the mirror, determine the following. (a) image distance of the truck (Include the appropriate positive or negative sign.) m (b) magnification for this object distance (Include the appropriate positive or negative sign.) Additional Materials Reading
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