In order to obtain the following types of images of an object, should you use a...

Some mirrors give us real, virtual, larger, smaller images, depending on where the objects are located...

Some mirrors give us real, virtual, larger, smaller images, depending on where the objects are located and the characteristics of the mirror. The magnification of a certain mirror is -2.5 for an object 5.0 cm high, which is 10 cm away from the mirror. What is the focal length of this mirror and the height of the object? Make the drawing, showing all the important parts for this mirror, and draw the ray diagram to locate the image, and state...

True of False: 1. When light traveling in air (of index 1.00) reflects off of a...

True of False: 1. When light traveling in air (of index 1.00) reflects off of a thin film of oil (of index 1.45) that is coating a piece of glass (of index 1.50), there is a relative phase shift of half a wavelength (in oil) due to reflection at the film boundaries. 2. A ray of light is incident on a material interface where n2 is less than n1. For incident angles less than or equal to the critical angle,...

Suppose you stand in front of a spherical mirror (either concave or convex in curvature). Is...

Suppose you stand in front of a spherical mirror (either concave or convex in curvature). Is it possible for your image to be (a) real and upright or (b) virtual and inverted in any situation? Justify your answer by listing the possible images produced and illustrated with ray diagrams.

Mirror lab Object distance = measured distance from object/lighted object to center of mirror = p...

Mirror lab Object distance = measured distance from object/lighted object to center of mirror = p or do Image distance = measured distance from center of mirror to image/screen = q or di Focal length calculated using mirror equation: (1/f) = (1/p) + (1/q) or (1/f) = (1/do) + (1/di) Magnification: m = -(q/p) or m = -(di/do) Procedure pp101-102 Part One: CONCAVE MIRROR a.) p = q = 38 cm b.) p > q: p = 50 cm, q...

The rearview mirrors in cars usually create images of cars behind you that are smaller than...

The rearview mirrors in cars usually create images of cars behind you that are smaller than they would be if the mirror were flat. Are the mirrors concave or convex? What is a mirror's radius of curvature (just the magnitude) if cars 16.0 mm away appear 0.35 their normal size? (? m)

Build a microscope that can double the size of an object. We need to choose two...

Build a microscope that can double the size of an object. We need to choose two converging lenses from these available lenses with focal lengths 2,4,8, and 12 meters. First choose an objective lens focal length, and a distance to place the object from the lens. Then choose an eyepiece lens focal length and a distance to place the lens from the objective lens. Draw your microscope design including a ray diagram. Your diagram should include: 1. Location and properties...

A 3.0 cm high object is placed 5.0 m in front of a concave spherical mirror...

A 3.0 cm high object is placed 5.0 m in front of a concave spherical mirror with radius of curvature 2.0 m. A) At what distance from the mirror is the image formed? B) What is the magnification? C) How high is the image? D) Is the image upright or inverted? Is the image real or virtual? E) Draw a ray diagram for the image formed for the same object at the same location by the aforementioned mirror. Also, check...

Hold a large shiny metal spoon at arm’s length with the concave side facing you. You...

Hold a large shiny metal spoon at arm’s length with the concave side facing you. You should see your image in the spoon. Question 5. Is your image upright or inverted (i.e. is your image upside down)? Now flip the spoon around so that the convex side is facing you. Go back and forth between the convex and concave sides and note how the images are different for your report. Question 6. Use the mirror equation to determine whether your...

1. Single convex lenses can be used to make images of far away objects. Will these...

1. Single convex lenses can be used to make images of far away objects. Will these images be real or imaginary? Where does the image occur relative to the focus? (Specify which side of the lens) 2. Lenses in combination are used in the making of microscopes and telescopes. When observing with the human eye, should the device create real or virtual images? Why? 3. Microscopes often have very bright lights to illuminate the object. If you were to look...

DataTable 1 Focal length, f 1.76 2f 3.52 Height of object, ho 4.0 Data Table 2...

DataTable 1 Focal length, f 1.76 2f 3.52 Height of object, ho 4.0 Data Table 2 General Description Object Dist. (cm) Image Dist. (cm) Object Size (cm) Image Size (cm) Other Observations (real, virtual or no image?) (Upright or inverted image?) Object about 5 f 10 74.04 4 -29.62 Real, inverted Object about 2.5f 10 7.87 4 -3.15 Real, inverted Object 2f 10 5.44 4 -2.18 Real, inverted More than f and less than 2f 10 4.29 4 -1.71 Real,...