Problem 10: An object with height 1.1 cm is placed a distance 6.25 cm in front of a thin converging lens with focal length 11.75 cm, as shown. At the image that it was given. The focal-point locations are indicated by the small black circles. Part (a) Calculate and enter a value for the magnitude of the distance between the image and the lens given the values in the problem statement. |di| =? Part (b) Which statement best indicates the position of the image? Which number is correct? 1) The object and image are on opposite sides of the lens, and the image is farther from the lens than the focal point. 2) The object and image are on opposite sides of the lens, and the image is closer to the lens than the focal point. 3) The object and image are on the same side of the lens, and the image is closer to the lens than the object. 4) The object and image are on the same side of the lens, and image is farther from the lens than the object. Part (c) Using the values given in the problem statement, calculate and enter a value for the magnitude of the image height,|hi|. |hi| = ? Part (d) Which statement best describes the image that is formed? Which number is correct? 1) The image is upright and the same size as the object. 2) The image is inverted and larger than the object. 3) The image is inverted and the same size as the object. 4) The image is inverted and smaller than the object. 5) The image is upright and smaller than the object. 6) The image is upright and larger than the object. Part (e) Which statement best describes the image that is formed? Which number is correct? 1) The image is virtual because the refracted principal rays may be extrapolated to converge at a common point. 2) The image is virtual because the refracted principal rays physically converge at a common point. 3) The image is real because the refracted principal rays physically converge at a common point. 4) The image is real because the refracted principal rays may be extrapolated to converge at a common point.
Problem 10: An object with height 1.1 cm is placed a distance 6.25 cm in front of a thin converging lens with focal length 11.75 cm, as shown. At the image that it was given. The focal-point locations are indicated by the small black circles.
Part (a) Calculate and enter a value for the magnitude of the distance between the image and the lens given the values in the problem statement.
|di| =?
Part (b) Which statement best indicates the position of the image? Which number is correct?
1) The object and image are on opposite sides of the lens, and the image is farther from the lens than the focal point.
2) The object and image are on opposite sides of the lens, and the image is closer to the lens than the focal point.
3) The object and image are on the same side of the lens, and the image is closer to the lens than the object.
4) The object and image are on the same side of the lens, and image is farther from the lens than the object.
Part (c) Using the values given in the problem statement, calculate and enter a value for the magnitude of the image height,|hi|.
|hi| = ?
Part (d) Which statement best describes the image that is formed? Which number is correct?
1) The image is upright and the same size as the object.
2) The image is inverted and larger than the object.
3) The image is inverted and the same size as the object.
4) The image is inverted and smaller than the object.
5) The image is upright and smaller than the object.
6) The image is upright and larger than the object.
Part (e) Which statement best describes the image that is formed? Which number is correct?
1) The image is virtual because the refracted principal rays may be extrapolated to converge at a common point.
2) The image is virtual because the refracted principal rays physically converge at a common point.
3) The image is real because the refracted principal rays physically converge at a common point.
4) The image is real because the refracted principal rays may be extrapolated to converge at a common point.
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