Part A: Using a Converging Lens to Create a Real Image Set up your simulation with the object at some position to the left of the lens so that you can still see the image on the right of the screen. Take a screenshot of your set up and inset it here: LENS Converging Diverging 2f Focal Length : 25 cm focus Object Distance : 50.7 cm H. Object Height : 29.3 cm height Image Distance : 49.7 cm Ray 1 Ray 2 Ray 3 ON ON ON Image Height : -28.6 cm Remember each blue square is 10.0 cm, use these to measure the following: d. -_50.7cm_ d, -_49.7cm__, f-_25cm_ Q8. Is the image real or virtual? (Highlight one) Is the image upright or inverted? (Highlight one) Is the image magnifted or reduced? (Highlight one) For this simulation you can take the lens to be glass with an index of refraction: Dle- 1.5

College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Hello,

I need help with question #8 and #9.

Thank you!

 

Part A: Using a Coverging Lens to Create a Real Image
Set up your simulation with the object at some position to the left of the lens so that you can still see the image
on the right of the screen. Take a screenshot of your set up and inset it here:
LENS
Converging
Diverging
2f
Focal Length : 25 cm
focus
Object Distance : 50.7 cm
Object Height : 29.3 cm
height
Image Distance : 49.7 cm
Ray 1
Ray 2
Ray 3
ON
ON
ON
Image Height : -28.6 cm
Remember each blue square is 10.0 cm, use these to measure the following:
d. =_50.7cm_- d; =_49.7cm
f=_25cm
Q8. Is the image real or virtual? (Highlight one)
Is the image upright or inverted? (Highlight one)
Is the image magnified or reduced? (Highlight one)
For this simulation you can take the lens to be glass with an index of refraction:
lens= 1.5
Transcribed Image Text:Part A: Using a Coverging Lens to Create a Real Image Set up your simulation with the object at some position to the left of the lens so that you can still see the image on the right of the screen. Take a screenshot of your set up and inset it here: LENS Converging Diverging 2f Focal Length : 25 cm focus Object Distance : 50.7 cm Object Height : 29.3 cm height Image Distance : 49.7 cm Ray 1 Ray 2 Ray 3 ON ON ON Image Height : -28.6 cm Remember each blue square is 10.0 cm, use these to measure the following: d. =_50.7cm_- d; =_49.7cm f=_25cm Q8. Is the image real or virtual? (Highlight one) Is the image upright or inverted? (Highlight one) Is the image magnified or reduced? (Highlight one) For this simulation you can take the lens to be glass with an index of refraction: lens= 1.5
Q9. Using thin lens Equation 4:
(njens
- 1) () .with the value for nieg above, calculate the
radius of curvature, R, of the lens. Show your work and clearly highlight your answers: either use the
equation editor or take a photo of your work and insert it.
Insert your work here
Transcribed Image Text:Q9. Using thin lens Equation 4: (njens - 1) () .with the value for nieg above, calculate the radius of curvature, R, of the lens. Show your work and clearly highlight your answers: either use the equation editor or take a photo of your work and insert it. Insert your work here
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