Difference between revisions of "AY Honors/Optics/Requirements"

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<translate>{{RequirementsHeader}}</translate>
 
==<translate>Requirements</translate>==
 
  
<b>1. <translate><section begin=req1 />Define and/or draw a diagram of the following:
+
<section begin=Body />
<section end=req1 /></translate></b>
 
  
:<b>a. <translate><section begin=req1a />Focal length
+
<b>1. <section begin=req1 /><noinclude><translate><!--T:1-->
<section end=req1a /></translate></b>
+
</noinclude>Define and/or draw a diagram of the following:
 +
<noinclude></translate></noinclude><section end=req1 /></b>
  
:<b>b. <translate><section begin=req1b />Positive lens 
+
:<b>a. <section begin=req1a /><noinclude><translate><!--T:2-->
<section end=req1b /></translate></b>
+
</noinclude>Focal length
 +
<noinclude></translate></noinclude><section end=req1a /></b>
  
:<b>c. <translate><section begin=req1c />Negative lens
+
:<b>b. <section begin=req1b /><noinclude><translate><!--T:3-->
<section end=req1c /></translate></b>
+
</noinclude>Positive lens
 +
<noinclude></translate></noinclude><section end=req1b /></b>
  
:<b>d. <translate><section begin=req1d />Two kinds of distortion
+
:<b>c. <section begin=req1c /><noinclude><translate><!--T:4-->
<section end=req1d /></translate></b>
+
</noinclude>Negative lens
 +
<noinclude></translate></noinclude><section end=req1c /></b>
  
:<b>e. <translate><section begin=req1e />Longitudinal color
+
:<b>d. <section begin=req1d /><noinclude><translate><!--T:5-->
<section end=req1e /></translate></b>
+
</noinclude>Two kinds of distortion
 +
<noinclude></translate></noinclude><section end=req1d /></b>
  
:<b>f. <translate><section begin=req1f />Lateral color  
+
:<b>e. <section begin=req1e /><noinclude><translate><!--T:6-->
<section end=req1f /></translate></b>
+
</noinclude>Longitudinal color
 +
<noinclude></translate></noinclude><section end=req1e /></b>
  
:<b>g. <translate><section begin=req1g />Spherical aberration
+
:<b>f. <section begin=req1f /><noinclude><translate><!--T:7-->
<section end=req1g /></translate></b>
+
</noinclude>Lateral color
 +
<noinclude></translate></noinclude><section end=req1f /></b>
  
:<b>h. <translate><section begin=req1h />Achromatic lens 
+
:<b>g. <section begin=req1g /><noinclude><translate><!--T:8-->
<section end=req1h /></translate></b>
+
</noinclude>Spherical aberration
 +
<noinclude></translate></noinclude><section end=req1g /></b>
  
:<b>i. <translate><section begin=req1i />Refraction of light
+
:<b>h. <section begin=req1h /><noinclude><translate><!--T:9-->
<section end=req1i /></translate></b>
+
</noinclude>Achromatic lens
 +
<noinclude></translate></noinclude><section end=req1h /></b>
  
<b>2. <translate><section begin=req2 />Explain how light behaves when it strikes or traverses water, oil, feldspar, and a mirror.
+
:<b>i. <section begin=req1i /><noinclude><translate><!--T:10-->
<section end=req2 /></translate></b>
+
</noinclude>Refraction of light
 +
<noinclude></translate></noinclude><section end=req1i /></b>
  
<b>3. <translate><section begin=req3 />Name and draw diagrams of three kinds of positive lenses and three kinds of negative lenses.  
+
<b>2. <section begin=req2 /><noinclude><translate><!--T:11-->
<section end=req3 /></translate></b>
+
</noinclude>Explain how light behaves when it strikes or traverses water, oil, feldspar, and a mirror.
 +
<noinclude></translate></noinclude><section end=req2 /></b>
  
<b>4. <translate><section begin=req4 />What should be the minimum distance of light source from the lens when testing for focal length?
+
<b>3. <section begin=req3 /><noinclude><translate><!--T:12-->
<section end=req4 /></translate></b>
+
</noinclude>Name and draw diagrams of three kinds of positive lenses and three kinds of negative lenses.
 +
<noinclude></translate></noinclude><section end=req3 /></b>
  
<b>5. <translate><section begin=req5 />Find the focal length of at least four lenses, one being a negative lens.
+
<b>4. <section begin=req4 /><noinclude><translate><!--T:13-->
<section end=req5 /></translate></b>
+
</noinclude>What should be the minimum distance of light source from the lens when testing for focal length?
 +
<noinclude></translate></noinclude><section end=req4 /></b>
  
<b>6. <translate><section begin=req6 />Explain by diagram why an image from a positive lens makes an image reversed and inverted.  
+
<b>5. <section begin=req5 /><noinclude><translate><!--T:14-->
<section end=req6 /></translate></b>
+
</noinclude>Find the focal length of at least four lenses, one being a negative lens.
 +
<noinclude></translate></noinclude><section end=req5 /></b>
  
<b>7. <translate><section begin=req7 />Show with diagrams how a prism works. State the angles at which the colors appear and disappear.  
+
<b>6. <section begin=req6 /><noinclude><translate><!--T:15-->
<section end=req7 /></translate></b>
+
</noinclude>Explain by diagram why an image from a positive lens makes an image reversed and inverted.
 +
<noinclude></translate></noinclude><section end=req6 /></b>
  
<b>8. <translate><section begin=req8 />Show and demonstrate what happens when light strikes one-way glass.  
+
<b>7. <section begin=req7 /><noinclude><translate><!--T:16-->
<section end=req8 /></translate></b>
+
</noinclude>Show with diagrams how a prism works. State the angles at which the colors appear and disappear.
 +
<noinclude></translate></noinclude><section end=req7 /></b>
  
<b>9. <translate><section begin=req9 />Construct one optical instrument using mirrors or lenses, such as a periscope, a slide or opaque projector, or a simple telescope.  
+
<b>8. <section begin=req8 /><noinclude><translate><!--T:17-->
<section end=req9 /></translate></b>
+
</noinclude>Show and demonstrate what happens when light strikes one-way glass.
 +
<noinclude></translate></noinclude><section end=req8 /></b>
  
<b>10. <translate><section begin=req10 />Explain what is meant by the term 6x35 and 7x50 as applied to binoculars.  
+
<section begin=challenge />
<section end=req10 /></translate></b>
+
<b>9. <section begin=req9 /><noinclude><translate><!--T:18-->
 +
</noinclude>Construct one optical instrument using mirrors or lenses, such as a periscope, a slide or opaque projector, or a simple telescope.
 +
<noinclude></translate></noinclude><section end=req9 /></b>
 +
<section end=challenge />
  
<b>11. <translate><section begin=req11 />Define the term "f/stop" as used in connection with cameras. What does it mean when a lens is fast or slow? Is an f/8.5 lens faster or slower than an f/8 lens?
+
<b>10. <section begin=req10 /><noinclude><translate><!--T:19-->
<section end=req11 /></translate></b>
+
</noinclude>Explain what is meant by the term 6x35 and 7x50 as applied to binoculars.
 +
<noinclude></translate></noinclude><section end=req10 /></b>
  
[[Category:Honor Requirements|{{#titleparts:{{PAGENAME}}|1|3}}]]
+
<b>11. <section begin=req11 /><noinclude><translate><!--T:20-->
[[Category:Honor Requirements Revision 2|{{#titleparts:{{PAGENAME}}|1|3}}]]
+
</noinclude>Define the term "f/stop" as used in connection with cameras. What does it mean when a lens is fast or slow? Is an f/8.5 lens faster or slower than an f/8 lens?
 +
<noinclude></translate></noinclude><section end=req11 /></b>
 +
<section end=Body />

Latest revision as of 03:02, 22 July 2022

Other languages:
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Optics

Skill Level

2

Year

1962

Version

22.11.2024

Approval authority

General Conference

Optics AY Honor.png
Optics
Health and Science
Skill Level
123
Approval authority
General Conference
Year of Introduction
1962
See also



1. Define and/or draw a diagram of the following:

a. Focal length

b. Positive lens

c. Negative lens

d. Two kinds of distortion

e. Longitudinal color

f. Lateral color

g. Spherical aberration

h. Achromatic lens

i. Refraction of light

2. Explain how light behaves when it strikes or traverses water, oil, feldspar, and a mirror.

3. Name and draw diagrams of three kinds of positive lenses and three kinds of negative lenses.

4. What should be the minimum distance of light source from the lens when testing for focal length?

5. Find the focal length of at least four lenses, one being a negative lens.

6. Explain by diagram why an image from a positive lens makes an image reversed and inverted.

7. Show with diagrams how a prism works. State the angles at which the colors appear and disappear.

8. Show and demonstrate what happens when light strikes one-way glass.


9. Construct one optical instrument using mirrors or lenses, such as a periscope, a slide or opaque projector, or a simple telescope.


10. Explain what is meant by the term 6x35 and 7x50 as applied to binoculars.

11. Define the term "f/stop" as used in connection with cameras. What does it mean when a lens is fast or slow? Is an f/8.5 lens faster or slower than an f/8 lens?