Remember to keep track of significant figures and units. 1. A mirror is designed so that a person 50 cm in front of it sees an erect image magnified by a factor of three. a) What is the radius of curvature of the mirror? c) Is the mirror concave or convex?
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- You are looking for a mirror that will enable you to see a 3.2-times magnified virtual image of an object that is placed 4.7 cm from the mirror’s vertex. part a) What kind of mirror will you need? which is the answer: Plane, Concave or Convex? Part (b) What should the mirror’s radius of curvature be, in centimeters? R=?A car’s convex rearview mirror has a radius of curvature equal to 15 m. 1)What is the location of the image dII that is formed by an object that is 13 m from the mirror? Follow the sign convention. (Express your answer to three significant figures.) 2)What is the magnification of the image that is formed by an object that is 13 m from the mirror? (Express your answer to three significant figures.)A concave mirror is constructed so that a man at a distance of 27 cm from the mirror sees his image magnified 3.0 times. Part A What is the radius of curvature of the mirror? Express your answer using two significant figures.
- PLEASE ANSWER IN SCIENTIFIC NOTATION USING E IF YOU CAN NOT SOLVE ALL OF THEM DO NOT ANSWER A spherical, concave shaving mirror has a radius of curvature of 0.395 m. What is the magnification of a person's face when it is 0.155 m from the vertex of the mirror (answer sign and magnitude)? A concave mirror has the focal length equal to 0.391 m. To form a real image that is triple the size of the object on a screen, at what distance in front of the mirror should the object be placed (in m; answer a positive number)? A concave mirror has the focal length equal to 0.929 m. To form a real image that is triple the size of the object on a screen, at what distance in front of the mirror should the screen be placed (in m; answer a positive number)?A technician wishes to form a virtual image of a gemstone at a distance of 18.1 cm behind a concave mirror. The mirror's radius of curvature equals 31.5 cm. (a) Where should he place this object? (Enter your answer in cm in front of the mirror.) cm in front of the mirror (b) What is the magnification of this particular image?MIRROR/LENS EQUATION 1. Suppose that the height of the object is 3.00 cm at 20.0 cm from the concave mirror. What are the height and the distance of the image from the mirror if the focal length is 10.0 cm? 2. What is the local length of a convex mirror that produces an image that appears 20.0 cm behind the mirror when the object is 35.0 cm from the mirror? 3. Complete the given table. Show your solution. ( The table is provided in the picture.) Please answer question nos. 1, 2 and 3. Thank you!!
- Use both ray diagramming and mirror equation. Use ruler for ray diagram please show complete solution with given and formulas used. 3. An object is placed 26.0 cm in front of a concave mirror with a radius of 50.0 cm. (a) What is thefocal length of the mirror? (b) Where is the image located? (c) describe the image formed.Use both ray diagramming and mirror equation. Use ruler for ray diagram An object is placed 26.0 cm in front of a concave mirror with a radius of 50.0 cm. (a) What is thefocal length of the mirror? (b) Where is the image located? (c) describe the image formed.DIRECTIONS: Solve the following problems. Please write legibly and round off the final answer to two decimal places Determine the position, size and nature of the image of an object 7 cm tall placed on the principal axis of a concave mirror of focal length 18 cm at a distance 50 cm from the mirror.
- Determine the focal length and magnification of a curved mirror that produces an image that is 16.0 cm behind the mirror when the object is 28.5 cm from the mirror. What type of curved mirror was used? write done your reasoning.Steps and example is already guvey you just need to follow it thank you. Question: For Concave mirror Draw the case Case: object placed at C Note: objects size is 1cm, focal length is 5cmConstruct ray diagrams to determine the location, orientation, size, and type of images formed by a curved mirror. Using the protractor and the ruler, copy each of the diagrams (A – F) below on a separate sheet of paper. As much as possible, use the four principal rays to locate the image formed in a curved mirror.