IA IL This lens can change its shape and hence its focal length. By changing the focal length you are able to focus on an object based on how far A) Hold an object out in front of you at arm's length. Close one eye and bring the object towards your eye and determine how close it can be to your eye and still be in focus. 25 cm B.) The average human eye has an image distance of 1.7 cm. In other words, it is 1.7 cm from the lens in your eye to the retina. Using this information and your answer to in Imin 6 x Units are required for this answer M=8 X

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Minimum focal length of your eye Each of your eyes has a lens in it. This lens can change its shape and hence its focal length. By changing the focal length you are able to focus on an object based on how far away it is from you. For this problem you will determine the minimum focal length of your eye. A) Hold an object out in front of you at arm's length. Close one eye and bring the object towards your eye and determine how close it can be to your eye and still be in focus. 25 cm ✓ B.) The average human eye has an image distance of 1.7 cm. In other words, it is 1.7 cm from the lens in your eye to the retina. Using this information and your answer to (A), determine the minimum focal length of your eye. Also determine the magnification for this situation. min 6 x Units are required for this answer. M = 8 X C.) The lens in your eye creates an image. It is this image that the rods and cones in our eye actually detect. Regarding the image your lens created when finding the minimum focal length, which of the following are true? Choose all that are true. It is virtual. It is enlarged It is real. It is inverted. It is upright. It is diminished. (262) YouTube Which of the following objects is the farthest away? The Moon Maximum focal length of your eye Each of your eyes has a lens in it. This lens can change its shape and hence its focal length. By changing the focal length you are able to focus on an object based on how far away it is from you. For this problem you will determine the maximum focal length of your eye. you can easily make out a mountain at that distance, we need to establish how far you can see under ideal conditions (no fog, an unobstructed line of vision). Bear in mind that how far you can see is not the same as what distance an object is visible at. You may not be able to make out a pen a mile away from you but A) To determine you can easily make out a mountain at that distance. When it comes to discerning objects, the size of the object matters. o Any star (besides the Sun) The Sun Pluto Mars International Space Station State how far away the object is (if you don't know then look it up). This will be your object distance. 8 x x Units are required for this answer. Start Page B.) The average human eye has an image distance of 1.7 cm. In other words, it is 1.7 cm from the lens in your eye to the retina. Using this information and your answer to (A), determine the maximum focal length of your eye. Also determine the magnification for this situation max 0 x20 x Units are required for this answer. M = 9