College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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An object is located 20.0 cm to the right of a diverging lens having a focal length of 12.0 cm. Determine the location of the image and describe the image.
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- A contact lens is made of plastic with an index of refraction of 1.54. The lens has an outer radius of curvature of +1.95 cm and an inner radius of curvature of +2.47 cm. What is the focal length of the lens? cm Need Help? Read It Watch Itarrow_forwardDetermine the image distance and size for a 10.00-cm tall object placed a) 60.0 cmb) 10 cm from a concave mirror having a focal length of 30.0 cm. Draw light ray diagrams for each case.arrow_forwardA diverging lens has a focal length of magnitude 22.2cm. Find the magnification for the object at distance 44.4 cm. Find the magnification for the object at distance 22.2 cm. Find the magnification for the object at distance 11.1 cm.arrow_forward
- Consider the optical system shown in the figure. The lens and mirror are separated by d = 1.00 m and have focal lengths of f₁ = +87.5 cm and f₂= = -53.4 cm, respectively. An object is placed p = 1.00 m to the left of the lens as shown. Lens LL -1.00 m Object distance location (a) What is the distance (in cm) and location of the final image formed by light that has gone through the lens twice? (Give the magnitude of the distance and select its location with respect to the lens.) ---Select--- -1.00 m- cm Mirror (b) Determine the overall magnification of the image. (c) State whether the image is upright or inverted. upright invertedarrow_forwardA 2.0 cm tall object is 30 cm to the left of a lens with a focal length of 10 cm. A second lens with a focal length of -5 cm is 30 cm to the right of the first lens. Find the location, and size, of the final image relative to the original object, and the character of the final image. Draw (two) ray diagrams to verify the result.arrow_forwardA doctor is examining a mole using a magnifying glass of focal length 15 cm. The lens is held 13.5 cm from the mole. Determine the following a) distance of the image from the lens b) magnificationarrow_forward
- An antelope is at a distance of 20.0 m from a converging lens of focal length 33.0 cm. The lens forms an image of the animal. (a) If the antelope runs away from the lens at a speed of 5.90 m/s, how fast does the image move? mm/s (b) Does the image move toward or away from the lens? O toward the lens away from the lens Need Help? Read It Watch Itarrow_forwardIf a converging lens forms a real, inverted image 11.0 cm to the right of the lens when the object is placed 47.0 cm to the left of a lens, determine the focal length of the lens.arrow_forwardA lens forms an image of an object. The object is 16.0 cm from the lens. The image is 12.0 cm from the lens on the same side as the object. (a) What is the focal length of the lens? Is the lens converging or diverging? (b) If the object is 8.50 mm tall, how tall is the image? Is it erect or inverted? (c) Draw a principal-ray diagram.arrow_forward
- A diverging lens with a focal length of -48.0 cm. forms a virtual image 8.00 mm tall, 17.0 cm to the right of the lens. Determine the position and size of the object. Is the image erect or inverted? Are the object and image on the same side or opposite sides of the lens? Draw a principal-ray diagram for this situationarrow_forwardTwo converging lenses have the same focal length of 5.00 cm. They have a common principal axis and are separated by 29.5 cm. An object is located 10.0 cm to the left of the left-hand lens. What is the image distance (relative to the lens on the right) of the final image produced by this two-lens system? Final image distance = Number i Unitsarrow_forwardIn the following three scenarios, an object is located on one side of a converging lens. In each case, you must determine if the lens forms an image of this object. If it does, you also must determine the following. whether the image is real or virtual whether the image is upright or inverted the image's location, q the image's magnification, M The focal length is f = 60.0 cm for this lens. Set both q and M to zero if no image exists. Note: If q appears to be infinite, the image does not exist (but nevertheless set q to 0 when entering your answers to that particular scenario). (a) The object lies at position 60.0 cm. (Enter the value for q in cm.) q= cmM= Select all that apply to part (a). realvirtualuprightinvertedno image (b) The object lies at position 7.06 cm. (Enter the value for q in cm.) q= cmM= Select all that apply to part (b). realvirtualuprightinvertedno image (c) The object lies at position 300 cm. (Enter the value for q in cm.) q= cmM= Select all that…arrow_forward
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