Teas An object (blue arrow) is placed in between a mirror and lens as shown in the figure above. The shape of the mirror shown in the drawing is accurate, but the drawing is otherwise not to scale. The lens and mirror are separated by a distance of d = 108.00 cm, and the object is x = 13.00 cm from the vertex o the mirror. The lens has a focal length of f = 44.00 cm, and the spherical mirror has a radius of R = 62 cm. a) If you consider only the light that leaves the object and travels directly to the lens, what is the image distance, q, for the image formed by the lens? (pay attention to algebraic sign) cm b) What Is the magnification of the image you found in part a) (compared with the original object) Pay attention to algebraic sign. c) Now consider the light that leaves the object, is reflected by the mirror, and then passes through the lens. How far from the lens is the final image (enter a positive number), cm CIm d) If the original object is 1.4 cm tall, how tall is the image you located in part c) (enter a positive number)? e) Is the image you found in part c) upright or inverted when compared with the original object? O Upright
Teas An object (blue arrow) is placed in between a mirror and lens as shown in the figure above. The shape of the mirror shown in the drawing is accurate, but the drawing is otherwise not to scale. The lens and mirror are separated by a distance of d = 108.00 cm, and the object is x = 13.00 cm from the vertex o the mirror. The lens has a focal length of f = 44.00 cm, and the spherical mirror has a radius of R = 62 cm. a) If you consider only the light that leaves the object and travels directly to the lens, what is the image distance, q, for the image formed by the lens? (pay attention to algebraic sign) cm b) What Is the magnification of the image you found in part a) (compared with the original object) Pay attention to algebraic sign. c) Now consider the light that leaves the object, is reflected by the mirror, and then passes through the lens. How far from the lens is the final image (enter a positive number), cm CIm d) If the original object is 1.4 cm tall, how tall is the image you located in part c) (enter a positive number)? e) Is the image you found in part c) upright or inverted when compared with the original object? O Upright
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