43. For a concave mirror to form a virtual and upright image, an object must be placed at a distance greater than the focal length of the mirror lesser than the focal length of the mirror equal to the focal length of the mirror concave mirrors only form real and inverted image of any object 44. An upright object is 2f in front of a converging lens of focal length f. The image is: real, inverted, same size real, upright, same size virtual, inverted, reduced

College Physics
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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please answer all the qs ty i dont really need the solution

43. For a concave mirror to form a virtual and upright image, an object
must be placed at a distance
greater than the focal length of the mirror
lesser than the focal length of the mirror
equal to the focal length of the mirror
concave mirrors only form real and inverted image of any object
44. An upright object is 2f in front of a converging lens of focal length f.
The image is:
real, inverted, same size
real, upright, same size
virtual, inverted, reduced
real, inverted, enlarged
45. A real object is 30 cm from a negative lens that has a focal length
f=-20 cm. The image is
O Virtual and 30 cm from the lens
Real and 12 cm from the lens
Virtual and 12 cm from the lens
Real and 20 cm from the lens
Transcribed Image Text:43. For a concave mirror to form a virtual and upright image, an object must be placed at a distance greater than the focal length of the mirror lesser than the focal length of the mirror equal to the focal length of the mirror concave mirrors only form real and inverted image of any object 44. An upright object is 2f in front of a converging lens of focal length f. The image is: real, inverted, same size real, upright, same size virtual, inverted, reduced real, inverted, enlarged 45. A real object is 30 cm from a negative lens that has a focal length f=-20 cm. The image is O Virtual and 30 cm from the lens Real and 12 cm from the lens Virtual and 12 cm from the lens Real and 20 cm from the lens
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