Objects placed in front of plane mirrors will have a corresponding image located behind the mirror. The distance from the image to the mirror is always identical to the distance from the object to the mirror.
So if a you stands 3.5 meters in front of the mirror, then the image will be located an identical 3.5 meters behind the mirror.
reflection distance = 3.5 + 3.5 = 7 m
Nemesis You walk up to a mirror and stand 3.5 meters away How far away from...
You stand two feet away from a planer mirror. How far is it from you to your image? a. 2.0 ft b. 3.0 ft C. 4.0 ft. d. 5.0 ft. 10. A concave mirror forms a real image 25.0 cm from the mirror surface along the principal axis. If the corresponding object is at a 10.0-cm distance, what is the mirror's focal length? a. 1.43 cm b. 16.7 cm c. 12.4 cm d. 7.14 cm 11. If a virtual image...
You and your friend (to your right) are now at a funhouse "infinity mirror". You stand 1 m apart, with your eyes centered between two plane mirrors that are 2 m apart (1 behind you, 1 in front of you). a. How far behind the mirror does the first (closest) reflection of your friend appear to you in m? This means the length of a line between the virtual image of your friend and the mirror. b. How far behind...
8) An object is very, very, far away from a converging mirror. When the object is very, very, far away, a real image forms 11 cm away from the mirror. If the object is then moved to closer to the mirror and an upright image forms with a magnification of 3.4, where was object located from the mirror when it is moved closer, in cm?
An object is very, very, far away from a converging mirror. When the object is very, very, far away, a real image forms 16 cm away from the mirror. If the object is then moved to closer to the mirror and an upright image forms with a magnification of 2.8, where was object located from the mirror when it is moved closer, in cm?
8) An object is very, very, far away from a converging mirror. When the object is very, very, far away, a real image forms 27 cm away from the mirror. If the object is then moved to closer to the mirror and an upright image forms with a magnification of 3.9, where was object located from the mirror when it is moved closer, in cm?
sit in a chair, stand up, and walk across the room (if you can't walk, how do you get across the room? what are the steps?) Write a how to manual about what needs to happen in our bodies for this to take place? It might seem as simple as above, but it is not. What muscles are involved? How do the muscles communicate with the brain? This exercise is to make you start to think about everything that must...
need help. please answer #8-11
8. As an object moves away from a plane mirror on a wall and you observe the object and the image from the position of the mirror, the image of the object A. gets smaller B. may or may not get smaller, depending on where the observer is positioned. C. Is always a real image, no matter how far you are from the mirror. D. Changes from being a virtual to a real image as...
When an object is located very far away from a convex mirror, the image of the object is 24 cm behind the mirror. Determine where the image is located when the object is placed 5.2 cm in front of the mirror.
When an object is located very far away from a convex mirror, the image of the object is 25 cm behind the mirror. Determine where the image is located when the object is placed 9.9 cm in front of the mirror.
When an object is located very far away from a convex mirror, the image of the object is 12.0 cm behind the mirror. Using a ray diagram drawn to scale, determine where the image is located when the object is placed 3.0 cm in front of the mirror. Note that the mirror must be drawn to scale also. In your drawing, assume that the height of the object is 3.0 cm.