1. Hosted by Various Mathematicians Presented by Windex
By Michael Lin, Erik Choi, and Frederick Huang
AD Calculus
9 June 2017

2. Welcome! This game can be played alone, with friends, or in teams!
Throughout the game, you will meet an assortment of famous mathematicians from history! Make sure to greet them!
How To Play
The players or teams starts at the next slide, called the “Jeopardy Board”
From here, the player may choose to any such dollar value to play for, ranging from $100π to $500π, each of which incorporates a fun math topic!
After clicking on the desired question, the player will be brought to the question screen. After giving an answer in the form of a question, click the blue arrow to see the answer. If you are correct, the game continues and the money is added to your “account”.
After all questions have been answered, tally up the money in every group’s accounts. Whoever has the most will have an opportunity to answer the “Final Jeopardy” question to double their money!
Click the “Final Jeopardy” button on the “Jeopardy Board” to reveal this final question! If answered correctly, your winnings will magically double!

3. JEOPARDY BOARD $100π $200π $300π $400π $500π Chapter 6 Putting in WORK
FINAL JEOPARDY
Chapter 6 Putting in WORK
Chapter 7 All Sorts of InteGREATion
Chapter 8
Mathman: ARCham City
Chapter 9 DiFUNential Equations
Chapter 10 We Couldn’t Come UP With A Pun
$100π
$200π
$300π
$400π
$500π

4. Putting In WORK - $100 Question
How much work is done lifting a 45 lb weight 5 feet off the ground?
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5. Putting In WORK - $100 Answer
225 ft-lb
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6. Putting In WORK - $200 Question
How much work is done by a variable force (30-x)N that moves an object along a straight line in the direction of the function from x=5 to x=35?
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7. Putting In WORK - $200 Answer
300 J
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8. Putting In WORK - $300 Question
A spring, which has a natural length of 3M, is stretched to a length of 10M when a force of 12N is applied. Find the work needed to extend the spring to a length of 15M from its natural length.
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9. Putting In WORK - $300 Answer
N or 864/7 N
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10. Putting In WORK - $400 Question
A 200 ft chain that weighs 600 lb is dangling from a roof of an apartment building. How much work is done in pulling the entire chain up the roof?
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11. Putting In WORK - $400 Answer
60,000 ft-lb
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12. Putting In WORK - $500 Question
A 50 N chain weighing 2 kg/m hangs over the side of a bridge. How much work is done by a winch that winds the entire chain in?
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13. Putting In WORK - $500 AnswerJ
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14. InteGREATion - $100 Question
Answer:
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15. InteGREATion - $100 Answer
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16. InteGREATion - $200 Question
Answer:
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17. InteGREATion - $200 Answer
Type answer here
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18. InteGREATion - $300 Question
Use Trapezoid and Simpson’s Rule to approximate the integral of e^x from 1-3 for n=5.
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19. InteGREATion - $300 Answer
Trapezoid:
Simpson’s:
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20. InteGREATion - $400 Question
Type question here
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21. InteGREATion - $400 Answer
Type answer here
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22. InteGREATion - $500 Question
Type question here
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23. InteGREATion - $500 Answer
Type answer here
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24. ARCham City - $100 Question
Find the arc length for the following on the given interval:
f(x) = 2x^(3/2)+7 on the interval [1,2]
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25. Click to return to Jeopardy Board
ARCham City - $100 Answer
3.7927
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26. ARCham City - $200 Question
Find the arc length for the following equation on the given interval:
f(x)=(8/3)x^(3/2) on the interval [1,4]
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27. Click to return to Jeopardy Board
ARCham City - $200 Answer
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28. ARCham City - $300 Question
Find the arc length for the following on the given interval:
f(x) = (3/2)x^(2) on the interval [0,2]
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29. Click to return to Jeopardy Board
ARCham City - $300 Answer 4
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30. ARCham City - $400 Question
Find the arc length for the following on the given interval:
f(x) = (4/3)x^(3/2) on the interval [1,3]
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31. Click to return to Jeopardy Board
ARCham City - $400 Answer
0.699
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32. ARCham City - $500 Question
Type Find the arc length for the following on the given interval:
f(x) = (5/4)x^(4/3) on the interval [0,2]
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33. Click to return to Jeopardy Board
ARCham City - $500 Answer
3.179
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34. DiFUNential Equations - $100 Question
Match each slope field with its corresponding differential equation.
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35. DiFUNential Equations - $100 Answer
Match each slope field with its corresponding differential equation.
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36. DiFUNential Equations - $200 Question
Solve the following differential equation.
Hi! I’m Pythagoras. You may have heard of me from my theorem on triangle side lengths!
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37. DiFUNential Equations - $200 Answer
Solve the following differential equation.
Answer:
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38. DiFUNential Equations - $300 Question
Solve the following differential equation with initial value.
Hi! I’m Isaac Newton. I’m the father of this math you are learning!
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39. DiFUNential Equations - $300 Answer
Solve the following differential equation with initial value.
Answer:
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40. DiFUNential Equations - $400 Question
Find the values of k for which y=x^2-k is a solution to the differential equation
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41. DiFUNential Equations - $400 Answer
Find the values of k for which y=x^2-k is a solution to the differential equation
Answer:
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42. DiFUNential Equations - $500 Question
Use Euler’s method to approximate the value of y(2) on the solution curve to the differential equation
That passes through (0,0). Step size=0.5.
Hi! I’m Euler. It’s actually pronounced oy-ler. This method is named after me!
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43. DiFUNential Equations - $500 Answer
Use Euler’s method to approximate the value of y(2) on the solution curve to the differential equation
That passes through (0,0). Step size=0.5.
Answer:
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44. Find the slope of the tangent line to the curve
No Pun Here - $100 Question
where t=2
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45. Click to return to Jeopardy Board
No Pun Here - $100 Answer 2
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46. Find the length of the curve with parametric equations
No Pun Here - $200 Question
where
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47. Click to return to Jeopardy Board
No Pun Here - $200 Answer
7.6
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48. Convert the polar coordinates
No Pun Here - $300 Question
into Cartesian coordinates
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49. Click to return to Jeopardy Board
No Pun Here - $300 Answer
(-2, 0)
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50. Convert the polar equation
No Pun Here - $400 Question
into Cartesian form
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51. Click to return to Jeopardy Board
No Pun Here - $400 Answer
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52. Find the length of the curve
No Pun Here - $500 Question
Find the length of the curve
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53. Click to return to Jeopardy Board
No Pun Here - $500 Answer
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54. FINAL
Topic: Type topic here
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55. Final Jeopardy Question
Type question here
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56. Click to return to Jeopardy Board
Final Jeopardy Answer
Type answer here
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