NOTE: Please note in the figure, the incident ray is the upper horizontal line. The refracted ray is the one in the semi-circle that does not go through the center of the circle. The "dashed" lines are those in the circle that go through the center of the circle.
Homework Answers
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NOTE: Please note in the figure, the incident ray is the upper
horizontal line. The refracted...
Here is a figure that shows a light ray that is H=23cm parallel to and above...
Here is a figure that shows a light ray that is H=23cm parallel
to and above the ground.
The light ray goes through a medium with an index of refraction
of n1=1.2, and some of it reflects and some of it
refracts.
The refracting part goes into a medium with an index of
refraction of n2=1.5.
If the angle ? = 30 degrees:
What is the distance between point A and point B (in
cm)?
What is the angle between...
2.00 cm 5. In the diagram above a ray of light strikes a flat 2.00 cm-thick...
2.00 cm 5. In the diagram above a ray of light strikes a flat 2.00 cm-thick block of glass (n = 1.50) at an angle of 1 = 30.0° with the normal (shown as the dashed line). The angle of refraction at the upper surface is closest to d. 41.4° a. b. 70.5° 60.0° g. h. 12.2° 3.42° 30.0° 48.6° f. 19.5° 6. When the light ray passes through the glass block, it is shifted laterally by a distance d....
Assume now that you mistakenly filled the tank up to the blue line in the figure...
Assume now that you mistakenly filled the tank up to the blue line in the figure below. Using your ruler and protractor, draw the reflected and refracted rays for both incoming rays and read from the figure their angles (again, the red ray is 1 and the green one is 2) ang Note: the point of incidence is now where each ray crosses the blue line. The angles from the normal lines in those two points are those calculated in...
Problem 175.00 points) A beam of light traveling in air strikes a slab of transparent material....
Problem 175.00 points) A beam of light traveling in air strikes a slab of transparent material. The incident beam makes an angle of 40' with the normal, and the refracted beam make an angle of 12.4' with the normal. What is the speed of light in the transparent material? (c-3.0 x 108 m/s) 1.0 x 108 m/s 2.0 x 108 m/s C)2.5 x 108 m/s D) 3.0 x108 m/s Problem 18(5.00 points) In the illustration, two particles carry the same...
*- Jordi 1. 14 points. You wish to project an image of a slide onto a...
*- Jordi 1. 14 points. You wish to project an image of a slide onto a screen for a slide show. The slide is initially in a holder 0.0500m from the lens and the screen is 3.00m from the lens. The image is well-focused on the screen. a. Determine the focal length of the lens used to project the image. b. Is the lens converging or diverging? How do you know? c. If you instead want to use a screen...
Partner: Date Name 11 Snell's Law Introduction When light passes from one material to another it ...
Partner: Date Name 11 Snell's Law Introduction When light passes from one material to another it is always bent away from its original path. This process is known as refraction and the change in direction depends on the change in optical density (or refractive index) of the two materials. A larger change in refractive index results in a larger change in angle between incoming and outgoing light beams. A light beam bends closer to the normal in the material with...
Part I: Background When a ray of light strikes a smooth surface, it can either reflect,...
Part I: Background When a ray of light strikes a smooth surface, it can either reflect, such as with a mirror, or it can both reflect and refract, such as with glass. In this make-up lab activity, we shall look at both situations. This make-up lab shall try to replicate the lab from your lab manual as best possible. Be sure to read the "Discussion" in your regular lab manual. You will be using the Bending Light simulation. Part II:...
Question 6: What percentage error would result from miscounting the bars by one? EXPERIMENT 10 THIN...
Question 6:
What percentage error would result from miscounting
the bars by one?
EXPERIMENT 10 THIN FILM INTERFERENCE Light from a monochromatic source is shined downward on two glass plates that are separated at one end by a hair. Light that is reflected from the top and bottom surfaces of the wedge-shaped thin film of air undergoes interference, and a series of dark and light lines are seen. By counting the number of dark or light lines over a known...
Question 5: How would dust and oil on the glass plates affect the results? EXPERIMENT 10 THIN FILM I...
Question 5:
How would dust and oil on the glass plates affect the
results?
EXPERIMENT 10 THIN FILM INTERFERENCE Light from a monochromatic source is shined downward on two glass plates that are separated at one end by a hair. Light that is reflected from the top and bottom surfaces of the wedge-shaped thin film of air undergoes interference, and a series of dark and light lines are seen. By counting the number of dark or light lines over a...
PLEASE READ THIS BEFORE YOU START SOLVING: I need an explanation for Part d only. The correct answer is 4.02 m, but I don't know how to get it, thanks! No need to do parts a, b and c!! THANK YOUU...
PLEASE READ THIS
BEFORE YOU START SOLVING: I need an explanation for Part
d only. The correct answer is 4.02 m, but I don't know how to get
it, thanks! No need to do parts a, b and c!! THANK
YOUUUUU
Free Surface A curved surface as shown in the diagram above) defined as a quarter circle with radius of length r = 18 m is submerged in a liquid with the flat edge at a distance h - 10...
Here is a figure that shows a light ray that is H=23cm parallel
to and above the ground.
The light ray goes through a medium with an index of refraction
of n1=1.2, and some of it reflects and some of it
refracts.
The refracting part goes into a medium with an index of
refraction of n2=1.5.
If the angle ? = 30 degrees:
What is the distance between point A and point B (in
cm)?
What is the angle between...
2.00 cm 5. In the diagram above a ray of light strikes a flat 2.00 cm-thick block of glass (n = 1.50) at an angle of 1 = 30.0° with the normal (shown as the dashed line). The angle of refraction at the upper surface is closest to d. 41.4° a. b. 70.5° 60.0° g. h. 12.2° 3.42° 30.0° 48.6° f. 19.5° 6. When the light ray passes through the glass block, it is shifted laterally by a distance d....
Assume now that you mistakenly filled the tank up to the blue line in the figure below. Using your ruler and protractor, draw the reflected and refracted rays for both incoming rays and read from the figure their angles (again, the red ray is 1 and the green one is 2) ang Note: the point of incidence is now where each ray crosses the blue line. The angles from the normal lines in those two points are those calculated in...
Problem 175.00 points) A beam of light traveling in air strikes a slab of transparent material. The incident beam makes an angle of 40' with the normal, and the refracted beam make an angle of 12.4' with the normal. What is the speed of light in the transparent material? (c-3.0 x 108 m/s) 1.0 x 108 m/s 2.0 x 108 m/s C)2.5 x 108 m/s D) 3.0 x108 m/s Problem 18(5.00 points) In the illustration, two particles carry the same...
*- Jordi 1. 14 points. You wish to project an image of a slide onto a screen for a slide show. The slide is initially in a holder 0.0500m from the lens and the screen is 3.00m from the lens. The image is well-focused on the screen. a. Determine the focal length of the lens used to project the image. b. Is the lens converging or diverging? How do you know? c. If you instead want to use a screen...
Partner: Date Name 11 Snell's Law Introduction When light passes from one material to another it is always bent away from its original path. This process is known as refraction and the change in direction depends on the change in optical density (or refractive index) of the two materials. A larger change in refractive index results in a larger change in angle between incoming and outgoing light beams. A light beam bends closer to the normal in the material with...
Part I: Background When a ray of light strikes a smooth surface, it can either reflect, such as with a mirror, or it can both reflect and refract, such as with glass. In this make-up lab activity, we shall look at both situations. This make-up lab shall try to replicate the lab from your lab manual as best possible. Be sure to read the "Discussion" in your regular lab manual. You will be using the Bending Light simulation. Part II:...
Question 6:
What percentage error would result from miscounting
the bars by one?
EXPERIMENT 10 THIN FILM INTERFERENCE Light from a monochromatic source is shined downward on two glass plates that are separated at one end by a hair. Light that is reflected from the top and bottom surfaces of the wedge-shaped thin film of air undergoes interference, and a series of dark and light lines are seen. By counting the number of dark or light lines over a known...
Question 5:
How would dust and oil on the glass plates affect the
results?
EXPERIMENT 10 THIN FILM INTERFERENCE Light from a monochromatic source is shined downward on two glass plates that are separated at one end by a hair. Light that is reflected from the top and bottom surfaces of the wedge-shaped thin film of air undergoes interference, and a series of dark and light lines are seen. By counting the number of dark or light lines over a...
PLEASE READ THIS
BEFORE YOU START SOLVING: I need an explanation for Part
d only. The correct answer is 4.02 m, but I don't know how to get
it, thanks! No need to do parts a, b and c!! THANK
YOUUUUU
Free Surface A curved surface as shown in the diagram above) defined as a quarter circle with radius of length r = 18 m is submerged in a liquid with the flat edge at a distance h - 10...
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