A light shines on a mirror. The position of the mirror relative to the light source is 12m away and 82.29443° above horizontal. The light bounces off the mirror and passes directly over the light source onto a wall. The beam moving from the mirror to the wall travels a distance of 15m at an angle of 24.86977° above horizontal. What is the position of where the light shines on the wall relative to the original light source?
A light shines on a mirror. The position of the mirror relative to the light source...
a person shines a flashlight at a flat mirror mounted on a wall. the flashlight is 3 meters from the mirror, 1 meter above the floor and aimed 10 degrees below horizontal. where does the light hit the floor? Give the distance measured from the base of the mirror.
#4 A+B please!! Don't know where to start! c 3 × 10-1117s wave equation for light: c itsert .9. Light of waveleng ath and frequency Speed of light in a medium with index of refraction n: Cn -10. Light of freque is 2.00. Find the wav 11. Two beams h glass. One of the at an angle of 32 n, sin θι.m, sin θ2 Critical angle: sin c Snell's law: PI PROBLEMS 212 1. cies in the FM band)? What...
In searching the bottom of a pool at night, a security guard shines a narrow beam of light from his flashlight, above the water's surface, onto the waiter at a point 2.5 m from his foot at the edge of the pool. Where does the light hit the bottom of the pool measured from the wall beneath his foot if the pool is 2.1 m deep. A triangular prism made of crown glass, n = 1.52, with base angles of...
To measure the tiny motion of one tectonic plate relative to another, seismologists in Iceland have set up the following interferometer-like device: A laser source producing laser light with wavelength 500 nm is set up on one side of a chasm that forms the boundary between two tectonic plates. The light is split into two beams using an angled piece of glass (acting as a "beam splitter"). One part of the beam crosses the chasm and is reflected back by...
In searching the bottom of a pool at night, a watchman shines a narrow beam of light, 1.5 m above the water level, onto the surface of the water at a point 2.5 m from his foot at the edge of the pool. 1.5 m 2 m a) (10 Points) Calculate the angle of incidence, 61 (Submit a PDF file with a maximum size of 8 MB) Choose File No file chosen b) (10 Points) Calculate the angle of refraction,...
A metal marble is launched with a speed of v0 = 30.0m/s at 5.0 ◦ relative to the horizontal, from a height of 1.0 m above ground, and towards a very tall vertical wall, which is 6.0 m away from the launch position. The projectile may first hit the wall, or the ground. Whichever it turns out to be, assume that this is an elastic, specular collision, so that the projectile bounces off. After some time, the projectile will have...
In searching the bottom of a pool at night, a watchman shines a narrow beam of light, 1.5 m above the water level, onto the surface of the water at a point 2.5 m from his foot at the edge of the pool. 1.5 m 01 2.5 m 2 m a) (10 Points) Calculate the angle of incidence, 01 (Submit a PDF file with a maximum size of 8 MB) Choose File no file selected b) (10 Points) Calculate the...
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...
A light source containing two wavelengths, red and green, is incident on two slits separated by a distance "d". The resulting pattern is observed on a screen a distance "L"away. 1. Draw a diagram indicating the source, the slits, the screen and the resulting zeroth, first and second order pattern observed on the screen. Clearly label the color(s) of the spots. (10 Points) Op 2. In the two 2. In the two-slit experiment described above, a third-order bright fringe for...
Deep in the physics and astronomy basement storeroom, you find a very large concave spherical mirror from an old telescope. The mirror is 2 m across, and has a radius of curvature of 14.0 m. Because this is just a small piece of such a large sphere, the angle of incidence for on-axis rays will always be below 5°, minimizing spherical aberration You try out the mirror for use as a full-length wall mirror. If you look at yourself in...