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Vwo 3, Lens equation + Magnification
Chapter 3, Light and lenses
Paragraph 3, Cameras and projectors
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Slide 1:
Slide
Natuurkunde / Scheikunde
Middelbare school
vwo
Leerjaar 3
This lesson contains
24 slides
, with
interactive quizzes
and
text slides
.
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Items in this lesson
Chapter 3, Light and lenses
Paragraph 3, Cameras and projectors
Slide 1 - Slide
Today
- Live lesson + lessonup
- Recap paragraph 2
- exercise 18,19 and 20 together
- Continuation paragraph 3
Slide 2 - Slide
Recap
Some questions about paragraph 2 will follow
Slide 3 - Slide
timer
1:00
Paragraph 2 was about:
Slide 4 - Mind map
A positive lens is:
timer
0:30
A
Convergent
B
Divergent
Slide 5 - Quiz
A positive lens:
timer
0:30
A
deflects rays of light outward
B
reflects rays of light back
C
deflects rays of light inward
Slide 6 - Quiz
A negative lens is:
timer
0:30
A
Convergent
B
Divergent
Slide 7 - Quiz
A negative lens:
timer
0:30
A
deflects rays of light inward
B
reflects rays of light back
C
deflects rays of light outward
Slide 8 - Quiz
After passing a positive lens, the rays of light converge and meet at one point, called:
timer
0:30
A
the point
B
the focal point
C
the burning point
D
the vocal point
Slide 9 - Quiz
With how many construction rays do you draw an image?
timer
0:30
A
2
B
3
C
1
D
4
Slide 10 - Quiz
Take a picture of your answer from worksheet 3-5
Slide 11 - Open question
Take a picture of your aswer from worsheet 3-6
Slide 12 - Open question
Take a picture of your aswer from worsheet 3-7
Slide 13 - Open question
Slide 14 - Slide
Paragraph 3, cameras and projectors
In the following question match
the 'distance' with its position
Slide 15 - Slide
timer
1:00
Object distance
Image distance
Focal distance
Slide 16 - Drag question
Slide 17 - Slide
Paragraph 3, Cameras and projectors
object distance = u
image distance = v
focal distance = f
Slide 18 - Slide
Paragraph 3, Cameras and projectors
Lens equation
u = object distance
v = image distance
f = focal distance
f
1
=
u
1
+
v
1
Slide 19 - Slide
Paragraph 3, Cameras and projectors
f = 2 cm
v = 5 cm
u = 1 / (1 / 2 - 1 / 5 ) = 3,33 cm
f
1
=
u
1
+
v
1
u
1
=
f
1
−
v
1
u
1
=
2
1
−
5
1
Slide 20 - Slide
An object is positioned 5 cm behind a positive lens (f = 3 cm).
Calculate the image distance to 1 decimal.
timer
2:00
Slide 21 - Open question
An object is positioned 4 cm behind a positive lens (f = 3 cm).
Calculate the image distance to 1 decimal.
timer
2:00
Slide 22 - Open question
An object is positioned 4 cm behind a positive lens (f = 3 cm).
Calculate the image distance to 1 decimal.
timer
2:00
Slide 23 - Open question
An object is positioned 10 cm behind a positive lens. The sharp image is visible at 15 cm on
the other side of the lens.
Calculate the focal length.
timer
2:00
Slide 24 - Open question
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