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

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<section begin=Body />
 
<section begin=Body />
 
  
 
<b>1. <section begin=req1 /><noinclude><translate><!--T:1-->
 
<b>1. <section begin=req1 /><noinclude><translate><!--T:1-->
</noinclude>Define the following:
+
</noinclude>Define the following:
 
<noinclude></translate></noinclude><section end=req1 /></b>
 
<noinclude></translate></noinclude><section end=req1 /></b>
  
 
:<b>a. <section begin=req1a /><noinclude><translate><!--T:2-->
 
:<b>a. <section begin=req1a /><noinclude><translate><!--T:2-->
</noinclude>Physics  
+
</noinclude>Physics
 
<noinclude></translate></noinclude><section end=req1a /></b>
 
<noinclude></translate></noinclude><section end=req1a /></b>
  
 
:<b>b. <section begin=req1b /><noinclude><translate><!--T:3-->
 
:<b>b. <section begin=req1b /><noinclude><translate><!--T:3-->
</noinclude>Mass  
+
</noinclude>Mass
 
<noinclude></translate></noinclude><section end=req1b /></b>
 
<noinclude></translate></noinclude><section end=req1b /></b>
  
 
:<b>c. <section begin=req1c /><noinclude><translate><!--T:4-->
 
:<b>c. <section begin=req1c /><noinclude><translate><!--T:4-->
</noinclude>Work  
+
</noinclude>Work
 
<noinclude></translate></noinclude><section end=req1c /></b>
 
<noinclude></translate></noinclude><section end=req1c /></b>
  
 
:<b>d. <section begin=req1d /><noinclude><translate><!--T:5-->
 
:<b>d. <section begin=req1d /><noinclude><translate><!--T:5-->
</noinclude>Force  
+
</noinclude>Force
 
<noinclude></translate></noinclude><section end=req1d /></b>
 
<noinclude></translate></noinclude><section end=req1d /></b>
  
 
:<b>e. <section begin=req1e /><noinclude><translate><!--T:6-->
 
:<b>e. <section begin=req1e /><noinclude><translate><!--T:6-->
</noinclude>Power  
+
</noinclude>Power
 
<noinclude></translate></noinclude><section end=req1e /></b>
 
<noinclude></translate></noinclude><section end=req1e /></b>
  
 
:<b>f. <section begin=req1f /><noinclude><translate><!--T:7-->
 
:<b>f. <section begin=req1f /><noinclude><translate><!--T:7-->
</noinclude>Potential energy  
+
</noinclude>Potential energy
 
<noinclude></translate></noinclude><section end=req1f /></b>
 
<noinclude></translate></noinclude><section end=req1f /></b>
  
 
:<b>g. <section begin=req1g /><noinclude><translate><!--T:8-->
 
:<b>g. <section begin=req1g /><noinclude><translate><!--T:8-->
</noinclude>Kinetic energy
+
</noinclude>Kinetic energy
 
<noinclude></translate></noinclude><section end=req1g /></b>
 
<noinclude></translate></noinclude><section end=req1g /></b>
  
 
:<b>h. <section begin=req1h /><noinclude><translate><!--T:9-->
 
:<b>h. <section begin=req1h /><noinclude><translate><!--T:9-->
</noinclude>Weight
+
</noinclude>Weight
 
<noinclude></translate></noinclude><section end=req1h /></b>
 
<noinclude></translate></noinclude><section end=req1h /></b>
  
 
:<b>i. <section begin=req1i /><noinclude><translate><!--T:10-->
 
:<b>i. <section begin=req1i /><noinclude><translate><!--T:10-->
</noinclude>Matter  
+
</noinclude>Matter
 
<noinclude></translate></noinclude><section end=req1i /></b>
 
<noinclude></translate></noinclude><section end=req1i /></b>
  
 
:<b>j. <section begin=req1j /><noinclude><translate><!--T:11-->
 
:<b>j. <section begin=req1j /><noinclude><translate><!--T:11-->
</noinclude>Inertia
+
</noinclude>Inertia
 
<noinclude></translate></noinclude><section end=req1j /></b>
 
<noinclude></translate></noinclude><section end=req1j /></b>
  
 
:<b>k. <section begin=req1k /><noinclude><translate><!--T:12-->
 
:<b>k. <section begin=req1k /><noinclude><translate><!--T:12-->
</noinclude>Friction  
+
</noinclude>Friction
 
<noinclude></translate></noinclude><section end=req1k /></b>
 
<noinclude></translate></noinclude><section end=req1k /></b>
  
 
:<b>l. <section begin=req1l /><noinclude><translate><!--T:13-->
 
:<b>l. <section begin=req1l /><noinclude><translate><!--T:13-->
</noinclude>Wave
+
</noinclude>Wave
 
<noinclude></translate></noinclude><section end=req1l /></b>
 
<noinclude></translate></noinclude><section end=req1l /></b>
  
 
:<b>m. <section begin=req1m /><noinclude><translate><!--T:14-->
 
:<b>m. <section begin=req1m /><noinclude><translate><!--T:14-->
</noinclude>Center of gravity  
+
</noinclude>Center of gravity
 
<noinclude></translate></noinclude><section end=req1m /></b>
 
<noinclude></translate></noinclude><section end=req1m /></b>
  
 
:<b>n. <section begin=req1n /><noinclude><translate><!--T:15-->
 
:<b>n. <section begin=req1n /><noinclude><translate><!--T:15-->
</noinclude>Exponential notation
+
</noinclude>Exponential notation
 
<noinclude></translate></noinclude><section end=req1n /></b>
 
<noinclude></translate></noinclude><section end=req1n /></b>
  
 
:<b>o. <section begin=req1o /><noinclude><translate><!--T:16-->
 
:<b>o. <section begin=req1o /><noinclude><translate><!--T:16-->
</noinclude>Absolute zero  
+
</noinclude>Absolute zero
 
<noinclude></translate></noinclude><section end=req1o /></b>
 
<noinclude></translate></noinclude><section end=req1o /></b>
  
 
:<b>p. <section begin=req1p /><noinclude><translate><!--T:17-->
 
:<b>p. <section begin=req1p /><noinclude><translate><!--T:17-->
</noinclude>Fulcrum  
+
</noinclude>Fulcrum
 
<noinclude></translate></noinclude><section end=req1p /></b>
 
<noinclude></translate></noinclude><section end=req1p /></b>
  
 
<b>2. <section begin=req2 /><noinclude><translate><!--T:18-->
 
<b>2. <section begin=req2 /><noinclude><translate><!--T:18-->
</noinclude>What is the scientific method? How can the scientific method be used to study the Bible?
+
</noinclude>What is the scientific method? How can the scientific method be used to study the Bible?
 
<noinclude></translate></noinclude><section end=req2 /></b>
 
<noinclude></translate></noinclude><section end=req2 /></b>
  
 
<b>3. <section begin=req3 /><noinclude><translate><!--T:19-->
 
<b>3. <section begin=req3 /><noinclude><translate><!--T:19-->
</noinclude>What is a controlled experiment?
+
</noinclude>What is a controlled experiment?
 
<noinclude></translate></noinclude><section end=req3 /></b>
 
<noinclude></translate></noinclude><section end=req3 /></b>
  
 
<b>4. <section begin=req4 /><noinclude><translate><!--T:20-->
 
<b>4. <section begin=req4 /><noinclude><translate><!--T:20-->
</noinclude>Explain the terms in Albert Einstein's <math>Emc^2</math> equation.
+
</noinclude>Explain the terms in Albert Einstein's <math>Emc^2</math> equation.
 
<noinclude></translate></noinclude><section end=req4 /></b>
 
<noinclude></translate></noinclude><section end=req4 /></b>
  
 
<b>5. <section begin=req5 /><noinclude><translate><!--T:21-->
 
<b>5. <section begin=req5 /><noinclude><translate><!--T:21-->
</noinclude>What units of measure for mass, length, and time are used where you live?
+
</noinclude>What units of measure for mass, length, and time are used where you live?
 
<noinclude></translate></noinclude><section end=req5 /></b>
 
<noinclude></translate></noinclude><section end=req5 /></b>
  
 
<b>6. <section begin=req6 /><noinclude><translate><!--T:22-->
 
<b>6. <section begin=req6 /><noinclude><translate><!--T:22-->
</noinclude>What units of measure are used for time prophecy in the Bible? What is the book, chapter and verse where they can be found?
+
</noinclude>What units of measure are used for time prophecy in the Bible? What is the book, chapter and verse where they can be found?
 
<noinclude></translate></noinclude><section end=req6 /></b>
 
<noinclude></translate></noinclude><section end=req6 /></b>
  
 
<b>7. <section begin=req7 /><noinclude><translate><!--T:23-->
 
<b>7. <section begin=req7 /><noinclude><translate><!--T:23-->
</noinclude>List Newton's three laws of motion.  
+
</noinclude>List Newton's three laws of motion.
 
<noinclude></translate></noinclude><section end=req7 /></b>
 
<noinclude></translate></noinclude><section end=req7 /></b>
  
 
<section begin=challenge />
 
<section begin=challenge />
 
<b>8. <section begin=req8 /><noinclude><translate><!--T:24-->
 
<b>8. <section begin=req8 /><noinclude><translate><!--T:24-->
</noinclude>Using a table cloth and several heavy books, demonstrate Newton's first law of motion.
+
</noinclude>Using a table cloth and several heavy books, demonstrate Newton's first law of motion.
 
<noinclude></translate></noinclude><section end=req8 /></b>
 
<noinclude></translate></noinclude><section end=req8 /></b>
 
<section end=challenge />
 
<section end=challenge />
  
 
<b>9. <section begin=req9 /><noinclude><translate><!--T:25-->
 
<b>9. <section begin=req9 /><noinclude><translate><!--T:25-->
</noinclude>Using an air-filled balloon, demonstrate Newton's third law of motion.
+
</noinclude>Using an air-filled balloon, demonstrate Newton's third law of motion.
 
<noinclude></translate></noinclude><section end=req9 /></b>
 
<noinclude></translate></noinclude><section end=req9 /></b>
  
 
<b>10. <section begin=req10 /><noinclude><translate><!--T:26-->
 
<b>10. <section begin=req10 /><noinclude><translate><!--T:26-->
</noinclude>Demonstrate Galileo's falling body experiment by dropping two plastic beverage bottles (one full of water, the other half full) at the same time from a height of seven feet. Record the results and draw a spiritual application from this experiment.
+
</noinclude>Demonstrate Galileo's falling body experiment by dropping two plastic beverage bottles (one full of water, the other half full) at the same time from a height of seven feet. Record the results and draw a spiritual application from this experiment.
 
<noinclude></translate></noinclude><section end=req10 /></b>
 
<noinclude></translate></noinclude><section end=req10 /></b>
  
 
<b>11. <section begin=req11 /><noinclude><translate><!--T:27-->
 
<b>11. <section begin=req11 /><noinclude><translate><!--T:27-->
</noinclude>Demonstrate the mechanical advantage of levers by pulling a large nail, driven deeply into a board, using only a hammer. Pull a second nail using a hammer and a small block of wood, located near the nail, under the head of the hammer. Note the difference in force required to pull the nail with different positions on the hammer on the block (fulcrum) and draw a spiritual application from this experiment.
+
</noinclude>Demonstrate the mechanical advantage of levers by pulling a large nail, driven deeply into a board, using only a hammer. Pull a second nail using a hammer and a small block of wood, located near the nail, under the head of the hammer. Note the difference in force required to pull the nail with different positions on the hammer on the block (fulcrum) and draw a spiritual application from this experiment.  
 
<noinclude></translate></noinclude><section end=req11 /></b>
 
<noinclude></translate></noinclude><section end=req11 /></b>
 
<section end=Body />
 
<section end=Body />

Revision as of 21:43, 24 April 2021

Other languages:
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Physics

Skill Level

2

Year

1989

Version

22.11.2024

Approval authority

General Conference

Physics AY Honor.png
Physics
Health and Science
Skill Level
123
Approval authority
General Conference
Year of Introduction
1989
See also



1. Define the following:

a. Physics

b. Mass

c. Work

d. Force

e. Power

f. Potential energy

g. Kinetic energy

h. Weight

i. Matter

j. Inertia

k. Friction

l. Wave

m. Center of gravity

n. Exponential notation

o. Absolute zero

p. Fulcrum

2. What is the scientific method? How can the scientific method be used to study the Bible?

3. What is a controlled experiment?

4. Explain the terms in Albert Einstein's [math]\displaystyle{ Emc^2 }[/math] equation.

5. What units of measure for mass, length, and time are used where you live?

6. What units of measure are used for time prophecy in the Bible? What is the book, chapter and verse where they can be found?

7. List Newton's three laws of motion.


8. Using a table cloth and several heavy books, demonstrate Newton's first law of motion.


9. Using an air-filled balloon, demonstrate Newton's third law of motion.

10. Demonstrate Galileo's falling body experiment by dropping two plastic beverage bottles (one full of water, the other half full) at the same time from a height of seven feet. Record the results and draw a spiritual application from this experiment.

11. Demonstrate the mechanical advantage of levers by pulling a large nail, driven deeply into a board, using only a hammer. Pull a second nail using a hammer and a small block of wood, located near the nail, under the head of the hammer. Note the difference in force required to pull the nail with different positions on the hammer on the block (fulcrum) and draw a spiritual application from this experiment.