Please do fast and add explanation properly at every steps.. (Critical Thinking andCommunication) Describe how theimage position changes as the objectmoves closer and farther from thelens and describe when the imageis closest and farthest away fromthe lens. Explain why the studentscould not find an image for the 100mm image position1:25 am dod₁f(mm)(mm)(mm)1000108900110800113700115600118500123400131300145200192100Could notfind imageaverage focal length: favg=

Step 1: Here we have solved for first part Step 2: Here we have solved for second part Step 3: Here…

Answered: (Critical Thinking and Communication)…

Inquiry into Physics

8th Edition

ISBN:9781337515863

Author:Ostdiek

Publisher:Ostdiek

Chapter9: Optics

Section: Chapter Questions

Problem 17Q: (Indicates a review question, which means it requires only a basic understanding of the material to...

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The accommodation limits for a nearsighted persons eyes are 18.0 cm and 80.0 cm. When he wears his glasses, he can see faraway objects clearly. At what minimum distance is he able to see objects clearly?
1. 2. 3. What is the focal length of -4.50 D lens? Where is the focal point in the above lens and is it in front of or behind the lens? Would the image in the above lens be real or virtual?
The virtual imoge pooduceed by. a Convax mioror is one - third the Size of the objeet. a) 4 the object is 33 cm in front of he mirror. what is the image distante Cincm)? ) what ip the focaf Cin em) ? leugth of the miror
Answer the problem. Providethe given, solutions and illustrations. 1. Find the image position andmagnification for an object ateach of the following distancesfrom a converging lens with afocal length of 20cm. (a) 50 cm ;(b) 20 cm: (c) : 15 cm (d) : -40 cm
How far from a converging lens with a focal length of32 cm should an object be placed to produce a real imagewhich is the same size as the object?
Lenses, Micrors, Waves Quiz e e w beee Refracted image 3f ebect lecoted in order to form this image? A Locotion A C) Location C D) Location D E) LocationE B) Location B An object in th
(a) Draw a ray diagram to find the location of the image. Be sure to include the image in your diagram. (b) Solve, using the thin-lens equation, for the location of the image. (c) Determine the magnification (in mm) of the image using equations.
Updates Available Do you want to restart to install the updates now or try tonight? Py The Yem high object is placed 75cm in front of the Lirst lens of Hhis leus combinattion:- Review my lesson Math Or Art now 25cm Owhere is the image Fomed by the Erst lens? becomes Hhe object The hst the secoudleus Find He locationof the Finad image imoge Lor formed by the second lens ?
Presbyopia is the tendency to gradually become far-sighted (hyperopic) as you age. If you have normal vision when you are young, you have a near point of 25 cm. D. As you continue to age, the corrective lenses will no longer be sufficient to allow you to see an object that is 25 cm in front of your eye. When you are wearing your corrective lenses, suppose that you can now see objects only if they are no closer than 40 cm in front of your eye. What is the actual near point of your eye now?N = _____ cmWhat is the focal length of your eye's lens that corresponds to this new near point?f = ______ cm
A 10-cm-tall object is located in front of a diverging lens with a power of -5 diopters. 1) Calculate the image distance dI if the object is located 10 cm from the lens. Follow the sign convention. (Express your answer to two significant figures.) 2) Is the image real or virtual? 3) Calculate the image height hI if the object is still located 10 cm from the lens? Follow the sign convention. (Express your answer to two significant figures.) 4) Is the image upright or inverted? 5) Calculate the image distance dI if the object is located 42 cm from the lens. Follow the sign convention.(Express your answer to two significant figures.) 6) Is the image upright or inverted?
MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER Suppose a certain person's visual acuity is such that he can see objects clearly that form an image 4.70-um high on his retina. What is the maximum distance at which he can read the 77.0-cm high letters on the side of an airplane? (Assume a 2.00-cm distance between retina and lens.) km Additional Materials M Reading
A person is having nearsightedness vision defect because, O a. no vision O b. the eye become too long O c. the lens of the eye become too weak O d. the eye become too short

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