Table 2: Converging Mirror Measured Calculated Object distance o (cm) Image dist

Question

Table 2: Converging Mirror

Measured

Calculated

Object distance o (cm)

Image distance I (cm)

Object Distance(1/o)

Image Distance (1/i)

10

no image

0.1

#VALUE!

20

no image

0.05

#VALUE!

30

no image

0.033333333

#VALUE!

40

27

0.025

0.037037037

50

24

0.02

0.041666667

60

23

0.016666667

0.043478261

70

21

0.014285714

0.047619048

80

20.5

0.0125

0.048780488

1. Determine the focal length of the mirror. Show all relevant equation and calculations.

2. Were the images upright or inverted? Was this the case for all trials?

3. Under what conditions (object distance) was the image larger? Under what conditions was the image smaller?

4. Were there object distances for which an image could not be located?

5. What is different, or significant, about this distance as compared to your measured focal length?

6. Where does the object have to be for a real image to form?

Measured

Calculated

Object distance o (cm)

Image distance I (cm)

Object Distance(1/o)

Image Distance (1/i)

10

no image

0.1

#VALUE!

20

no image

0.05

#VALUE!

30

no image

0.033333333

#VALUE!

40

27

0.025

0.037037037

50

24

0.02

0.041666667

60

23

0.016666667

0.043478261

70

21

0.014285714

0.047619048

80

20.5

0.0125

0.048780488

Explanation / Answer

1) Using mirror formula

1/di + 1/ do = 1/ f

Using object's distance 40cm and corresponding values

we get f = 16.12 cm

2) inverted for all trials

3) when do < 2f image is large

when do > 2f image is small

4) yes

5)  do < f

6) do>= f

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