5. Locate the image position by drawing ray diagrams. (1) (2) (3)
Q: object --optical axis
A:
Q: 14. An incident ray of light (red arrow) reflects off a plane mirror. Which is the expected…
A: Note According to Bartleby's guidelines allowing answering only the first question.
Q: 1. The relationship between the angles of incident and reflection in a specular reflection. 2. It…
A: As per policy i can answer only first three.. please post separately for other answers
Q: Match each feature with its name. B- D A
A: Given figure,
Q: Consider a camera whose lens has a 36.5 mm focal length. :What is the power P, in diopters, of…
A:
Q: A laser beam emitting 1.44 um radiation has power of 40 mW and it has an aperture of 8 mm. It is…
A: Wavelength of the radiation is 1.44 um Power of the radiation is p = 40 mW Aperture distance is d =…
Q: B. Complete the following Color Equation : 1. R+ G= 6. G+M = %3D - 2. R+ C = 7. R+ B = %3D - 3. W-R…
A:
Q: 2. Which among the following best describes the critical angle for TIR? It is an angle measurement…
A:
Q: Find the position of the centroids of the following areas 1 30mm 5mm 5m 25mi 5m 10mm
A: Given:
Q: DIRECTIONS. Show the ray diagraming and describe the image formed. 1.) DESCRIPTION OF THE IMAGE…
A: we use the concepts: (1) a ray traveling parallel to axis will be pass through the focal length…
Q: You want to use a double lens imaging system with the first lens having a focal length F₁ = 80 mm…
A: Focal length of first lens : F1=80 mm Focal length of second lens : F2=30 mm Object distance from…
Q: 6. You can improve resolution by: (a) decreasing wavelength, decreasing object size (c) decreasing…
A: Resolution and wavelength are related when we lighter wavelength we gets greater resolution . When…
Q: Show how the Snell's Law is reduced to n, = 1/sin r, wherer is the refracted angle.
A:
Q: PA
A:
Q: 2. What is the refractive medium if a ray coming from air at an angle of incidence of 50° is…
A: Since you posted two questions, we will solve only first question and for the solutions of other…
Q: What is the need of calculating numerical Aperture angle?
A: The numerical aperture of an optical system is defined as the product of the refractive index of the…
Q: An object is 25.0 cm in front of a converging lens with a focal length of 55.0cm. Use ray tracing to…
A: object distance=25cm focal length= 55cm
Q: 11. What is the angle of incidence for a light ray traveling from water into flint glass, if the…
A: Since you posted three questions, we will solve only first question and for the solutions of other…
Q: Suppose that you use the lens from your third Investigation to collect solar light at a normal…
A: here distance of sun from lens is 150×106 km using lens maker formula 1v-1u=1f --(1) here u is the…
Q: 2) For a converging lens with focal length f = 10 cm, the object distance p = 25 cm. Calculate the…
A: Given that The focal length of the convergent lens is f = 10cm (positive for…
Q: 4) A light ray initially in water enters a transparent substance at an angle of incidence of 37.0°,…
A:
Q: When an object is placed 5 cm from a lens, the image created is upright and 1.7 times larger.…
A: Position of the image, Magnification of the image,
Q: A camera is used to take a picture of a dog. What kind of image is produced? type 'real' or…
A: This is a question regarding the types of image produced by different lenses. An image formed by the…
Q: 16. While walking on a beach, you find a clear, colourless rock that may be quartz or glass. Which…
A: Refractive index - It is the ability of an material to oppose the motion of light, higher the…
Q: 18) It refers to a line from an observer's perspective or eye to a distant point. OA. Angle of…
A: There are two objective type question and we have to chose correct option.
Q: If you view an object with binoculars, and the image appears right side up and a dozen times larger,…
A: . magnification of image is given by height of image divided by height of object if the image…
Q: 15. This figure shows two materials, one with index n = 2.3 and one with index n = 1.3. Circle the…
A: To determine which rays will make it through from one material to the other, we need to use Snell's…
Q: object -optical axis 12. object --optical axis 13. object -optical axis
A:
Q: 4. Which statement below is both true and proven by the data you collected? When a beam of light is…
A: Required : Which statement is true.
Q: 5. Copy the diagrams below. Use at least two light rays to locate the image of each object. Also…
A: By using ray diagram.
Q: When an object is located 37 cm to the left of a lens, the image is formed 15 cm to the right of the…
A: Object distance (d) = 37 cm Image distance (i) = 15 cm
Q: 7. Een horizontale straal komt binnen in een prisma. De uittredende straal beweegt in een richting…
A: Given: nair=1θ1=900−450=450θout=340 Recall the following Snell's law: n1sinθ1=n2sinθ2 where n…
Q: Use at least two principle rays to locate the image formed in the convex lens if an object is…
A:
Q: 5. The critical angle for benzene is 41.776° when surrounded by air. (a) construct the ray diagram,…
A:
Q: 6. Explain why a person's legs appear very short when wading in a pool. Justify your explanation…
A:
Q: 11. If you have three convex lenses with focal lengths 10cm, 25cm, and 50cm respectively, which two…
A: The magnifying power of the astronomical telescope is given by
Q: 2. (a) (b) A spherical concave mirror has a radius of curvature of 65 cm. An object is placed 40 cm…
A:
Q: Knowing that a ray enters a block of ice (n = 1.31) at an angle of 57.36 ° from normal, what will be…
A:
Q: 22. From the picture given below for the convex lens answer the following: 1) The focal length of…
A:
Q: .A book measure L=10 inches, W= 8 inches, and H=2 inches.How many of these can be packed in a box…
A:
Q: When the candle is placed in region 3 , is the image real or virtual?
A: Since you posted two questions, we will solve only first question and for the solutions of other…
Q: 2. The same rays are used to find the properties of a diverging lens. Use them to locate the image…
A: Light rays from object and image formed is as follows for first object: Image formed is virtual and…
Step by step
Solved in 4 steps with 3 images
- 1. Using the principal rays find the position and size of the image, when the object is located at different positions:7. speed in vacuum. The speed of light inside some material is reduced by 25% from the What is the index of refraction of the material? a) n = = 3 b) n = 4 c) n = 34 d) Something else. (Please explain.)5. Explain why an object in water always appears to be at a depth shallower than it actually is? Illustrate your answer with clear diagram.
- 5) A stamp collector wants to magnify images by 5(X) when the object is 4.2 cm away. What focal length is needed? °P xW= 'P -| -1 -) f= di + do %3DExplain why it is theoretically impossible to see an object as small as an atom regardless of the quality of the light microscope being used.7. Determine the coordinate of the centroid of the given area. 5omm R = 20 mmm 40mm Bomm -> I 40 mm Gomm
- 6. The bowl of a ladle is perfectly spherical, with a diameter of 10 cm. If I point the bowl of the ladle toward the sun, where will I get an image of the sun? Include a sketch.3) Describe the type of lenses used in a Galilean expander and in a Keplerian expander. Draw Keplerian beam expander and show the expression for distance between two lenses. What is the power of the Galilean beam expander used in the lab experiment?4) Draw a ray diagram demonstrating interaction of parallel rays of light with diverging lens.
- 5. Light enters a container of benzene at an angle of 43° to the normal; the refracted beam makes an angle of 27° withthe normal. Calculate the index of refraction of benzene.2. If a ray is incident on a block of material at 15° from the vertical, and is refracted to 8° from the vertical, what is the index of refraction?4. Briefly discuss how near sightedness is corrected using a lens. Support your discussion by constructing a ray diagram.