Homework Answers
first image
concave mirror
object = beyond C
Image - between F and C
properties - 1. Diminished (small )
2. Real
3. Inverted
Second image
convex mirror
Object = on the left side of the mirror ( between infinity & pole )
Image = between F and P
properties - 1. Highly diminished (very small )
2. Erect
3. Virtual (imaginary )
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10. Use ray diagram to locate the image of the following objects indicated by the arrows...
3) Law of reflection (35 points) a. [10 points) On the diagram below, an incident ray...
3) Law of reflection (35 points) a. [10 points) On the diagram below, an incident ray is shown. Draw and label i. the normal ii. reflected ray iii. the angle of incidence and the angle of reflection b. [25 points) Below are five different combinations (a-e) of two mirrors (black lines) in each scenario with an incoming coming light ray shown (red or blue arrows). For each situation, complete the path that the incoming light ray will follow when bouncing...
Problem 1 a) For the object shown in the diagram below, complete the ray diagram. You...
Problem 1 a) For the object shown in the diagram below, complete the ray diagram. You must use a ruler and pencil for the ray diagram - 2 cm 0 11 13 IS (cm) b) Calculate the image distance. c) Calculate the lateral magnification. d) State the three characteristics of the image Real or virtual • Inverted or upright • Enlarged, diminished or the same size he concave lens is then removed and replaced by a concave lens as shown...
To practice Tactics Box 18.5 Ray tracing for a convex mirror. The procedure known as ray...
To practice Tactics Box 18.5 Ray tracing for a convex mirror. The procedure known as ray tracing is a pictorial method for understanding image formation when lenses or mirrors are used. It consists in locating the image by the use of just three "special rays." The following Tactics Box explains this procedure for the case of a convex mirror. The diagram below shows the situation described in the problem. The focal length of the mirror is labeled f the scale...
± PSS 34.1 Image Formation by Mirrors Learning Goal: To practice Problem-Solving Strategy 34.1 Image Formation by Mir...
± PSS 34.1 Image Formation by Mirrors
Learning Goal:
To practice Problem-Solving Strategy 34.1 Image Formation by
Mirrors.
(Figure 1) Consider an object located at position P in
front of a concave mirror whose center of curvature is at position
C, as shown in the diagram. Draw a principal-ray diagram
to determine the size and position of the reflected image.
This problem involves using graphical methods to find the image
produced by the mirror. Writing down equations will be of...
For each of the following problems, you are to a) construct a ray diagram on graph...
For each of the following problems, you are to a) construct a ray diagram on graph paper to locate and describe the image and b) analytically determine the image location (supplying proof whether the image is real or virtual), image and size magnification (supplying proof whether the image is upright or inverted, and magnified or de-magnified). Be sure to fully label each diagram: p, q, f, O (object), I (image), h, h'. 1. An object is 5.50 cm high and...
For each of the following problems, you are to a) construct a ray diagram on graph...
For each of the following problems, you are to a) construct a ray diagram on graph paper to locate and describe the image and b) analytically determine the image location (supplying proof whether the image is real or virtual), image and size magnification (supplying proof whether the image is upright or inverted, and magnified or de-magnified). Be sure to fully label each diagram: p, q, f, O (object), I (image), h, h'. 1. An object is 4.30 cm high and...
draw a ray diagram for this If a virtual image is formed along the principal axis...
draw a ray diagram for this If a virtual image is formed along the principal axis 10.0 cm from a concave mirror with the focal length 15.0 cm, what is the object distance from the mirror? Use the mirror equation: 1/di + 1/do = 1/f where di = -10 cm and f = +15 cm. (Note that di is negative if the image is virtual.) Substitute and solve for do. 1/do + 1/(-10 cm) = 1/(15 cm) 1/do = 1/(15...
An object (represented by the brown arrow) is placed near a concave lens Three sample rays of light are shown traveling from the tip of the object to the lens. On the diagram below, draw three arrows...
An object (represented by the brown arrow) is placed near a concave lens Three sample rays of light are shown traveling from the tip of the object to the lens. On the diagram below, draw three arrows to show the subsequent paths of the three light rays given. Draw a fourth arrow to represent the image that is formed by the lens. The focal points of the lens are shown for reference Note: to locate the image, you will also...
Please help with number 4 please I'm so lost Use a ray diagram to determine the...
Please help with number 4 please I'm so lost
Use a ray diagram to determine the location of the image for the following problem: an object is placed 15 mm away from a concave mirror with a focal length of 10 mm. Use the mirror formula to check your diagram Use a ray diagram to determine the location of the image for the following problem: an object is placed 15 mm in front of a convex mirror and an image...
Can you please help my find the magnification, di by ray diagram, and hi by ray...
Can
you please help my find the magnification, di by ray diagram, and
hi by ray diagram for each problem.
Ray Diagrams Concave Mirror (Task 13) Concave Mirror h hi ho o C Magnification () object no mis)h d by ray dingram- hy by ray diagram M by ray diagram (ii) do -R-2f Concave Mirror dj by ray diagram d, using equation (1)- Percent difference in d, h by ray diagram - M by ray diagram_ M using equation (2)...
3) Law of reflection (35 points) a. [10 points) On the diagram below, an incident ray is shown. Draw and label i. the normal ii. reflected ray iii. the angle of incidence and the angle of reflection b. [25 points) Below are five different combinations (a-e) of two mirrors (black lines) in each scenario with an incoming coming light ray shown (red or blue arrows). For each situation, complete the path that the incoming light ray will follow when bouncing...
Problem 1 a) For the object shown in the diagram below, complete the ray diagram. You must use a ruler and pencil for the ray diagram - 2 cm 0 11 13 IS (cm) b) Calculate the image distance. c) Calculate the lateral magnification. d) State the three characteristics of the image Real or virtual • Inverted or upright • Enlarged, diminished or the same size he concave lens is then removed and replaced by a concave lens as shown...
To practice Tactics Box 18.5 Ray tracing for a convex mirror. The procedure known as ray tracing is a pictorial method for understanding image formation when lenses or mirrors are used. It consists in locating the image by the use of just three "special rays." The following Tactics Box explains this procedure for the case of a convex mirror. The diagram below shows the situation described in the problem. The focal length of the mirror is labeled f the scale...
± PSS 34.1 Image Formation by Mirrors
Learning Goal:
To practice Problem-Solving Strategy 34.1 Image Formation by
Mirrors.
(Figure 1) Consider an object located at position P in
front of a concave mirror whose center of curvature is at position
C, as shown in the diagram. Draw a principal-ray diagram
to determine the size and position of the reflected image.
This problem involves using graphical methods to find the image
produced by the mirror. Writing down equations will be of...
An object (represented by the brown arrow) is placed near a concave lens Three sample rays of light are shown traveling from the tip of the object to the lens. On the diagram below, draw three arrows to show the subsequent paths of the three light rays given. Draw a fourth arrow to represent the image that is formed by the lens. The focal points of the lens are shown for reference Note: to locate the image, you will also...
Please help with number 4 please I'm so lost
Use a ray diagram to determine the location of the image for the following problem: an object is placed 15 mm away from a concave mirror with a focal length of 10 mm. Use the mirror formula to check your diagram Use a ray diagram to determine the location of the image for the following problem: an object is placed 15 mm in front of a convex mirror and an image...
Can
you please help my find the magnification, di by ray diagram, and
hi by ray diagram for each problem.
Ray Diagrams Concave Mirror (Task 13) Concave Mirror h hi ho o C Magnification () object no mis)h d by ray dingram- hy by ray diagram M by ray diagram (ii) do -R-2f Concave Mirror dj by ray diagram d, using equation (1)- Percent difference in d, h by ray diagram - M by ray diagram_ M using equation (2)...
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