Homework Answers
Every given case is possible except option "D"
Because such type of thing is only possible in curved mirror ( convex/concave)
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When a plane mirror forms an image of a real object each of the following is...
A person stands 1.60 m away from the reflecting surface of a plane mirror. (a) What...
A person stands 1.60 m away from the reflecting surface of a plane mirror. (a) What is the distance between the person and his or her image? m (b) What are the image characteristics? (Choose from below) Virtual, inverted and has the same height as the object Virtual, erect and diminished Real, inverted and diminished Virtual, erect and magnified Real, inverted and magnified Real, erect and diminished Real, inverted and has the same height as the object Virtual, erect and...
A person stands 1.70 m away from the reflecting surface of a plane mirror. (a) What...
A person stands 1.70 m away from the reflecting surface of a plane mirror. (a) What is the distance between the person and his or her image? (b) What are the image's characteristics? The answer options are: -Real, inverted and magnified -Virtual, erect and has the same height as the object -Virtual, inverted and magnified -Real, erect and diminished -Virtual, inverted and has the same height as the object -Real, inverted and has the same height as the object -Real,...
Which of the following statements are true for an image formed by a plane mirror? ...
Which of the following statements are true for an image formed by a plane mirror? The image always appears to be located the same distance behind the mirror as the object is located in front of the mirror. The image formed by a plane mirror is always a real image. The image is always larger than the object. The image formed by a plane mirror is always an upright image. ...
Answer True or False for all statements. True/False A concave mirror always forms a virtual image of...
Answer True or False for all statements. True/False A concave mirror always forms a virtual image of a real object. True/False The image produced by a convex mirror is always closer to the mirror than it would be in a plane mirror for the same object distance. True/False A concave mirror always forms an enlarged real image of a real object. True/False A virtual image formed by a concave mirror is always enlarged. True/False When an object is placed between a concave mirror and its...
An object is placed 24.1 cm in front of a convex mirror of focal length 50...
An object is placed 24.1 cm in front of a convex mirror of focal length 50 cm. Note: Do convex mirrors have a positive or negative focal length? What is its image position? Answer in units of cm. The magnification of the image in the previ- ous question is: With the arrangement discussed above, the image is: 1. virtual, inverted, smaller than object 2. real, erect, smaller than object 3. real, inverted, bigger than object 4. real, erect, bigger than...
An upright object is 59 cm from a concave mirror of radius 74 cm. The character...
An upright object is 59 cm from a concave mirror of radius 74 cm. The character of the image is virtual and inverted real and inverted virtual and erect real and erect indeterminate Tries 0/2 The distance of the image from the mirror is closest to: Tries 0/2 The lateral magnification of the image is closest to:
12. Real images formed by a curved mirror are always A) on the side of the...
12. Real images formed by a curved mirror are always A) on the side of the mirror opposite the object B) on the same side of the mirror as the object and closer to the mirror than the object C) on the same side of the mirror as the object and upright D) on the same side of the mirror as the object and further from the mirror than the focal poi 13. Aray of light passes from, air into...
32. The image of an object placed 20 cm in front of a concave mirror of...
32. The image of an object placed 20 cm in front of a concave mirror of focal length 10 cm will be A. real and inverted. B. real and erect. C. virtual and inverted. D. virtual and erect. The answer is A instead of C, can you explain why? Thanks!
The convex mirror shown in the drawing forms a virtual image of an arrow at x...
The convex mirror shown in the drawing forms a virtual image of
an arrow at x = x2 = 17 cm. The image of the tip of the
arrow is located at y = y2 = 8.2 cm. The magnitude of
the focal length of the convex mirror is 31 cm.
1.) What is x1, the x co-ordinate of the object
arrow?.
2) What is
y1, the y
co-ordinate of the tip of the object arrow?
3) The object arrow...
An object is placed 50.0cm in front of a lens. The image forms on the same...
An object is placed 50.0cm in front of a lens. The image forms on the same side of the lens and is larger than the object. The image is (upright or inverted), the lens is (converging/diverging), image distance is (positive/negative), the image is (real, virtual) O inverted, diverging, positive, real upright, converging, positive, virtual inverted, converging, positive, virtual upright, converging, positive, real upright, converging, negative, virtual upright, converging, negative, real inverted, converging, positive, real O inverted, diverging, negative, real
12. Real images formed by a curved mirror are always A) on the side of the mirror opposite the object B) on the same side of the mirror as the object and closer to the mirror than the object C) on the same side of the mirror as the object and upright D) on the same side of the mirror as the object and further from the mirror than the focal poi 13. Aray of light passes from, air into...
The convex mirror shown in the drawing forms a virtual image of
an arrow at x = x2 = 17 cm. The image of the tip of the
arrow is located at y = y2 = 8.2 cm. The magnitude of
the focal length of the convex mirror is 31 cm.
1.) What is x1, the x co-ordinate of the object
arrow?.
2) What is
y1, the y
co-ordinate of the tip of the object arrow?
3) The object arrow...
An object is placed 50.0cm in front of a lens. The image forms on the same side of the lens and is larger than the object. The image is (upright or inverted), the lens is (converging/diverging), image distance is (positive/negative), the image is (real, virtual) O inverted, diverging, positive, real upright, converging, positive, virtual inverted, converging, positive, virtual upright, converging, positive, real upright, converging, negative, virtual upright, converging, negative, real inverted, converging, positive, real O inverted, diverging, negative, real
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