2. © Mark E. Damon - All Rights Reserved

3. Another Presentation © 2013- All rights Reserved

4. © Mark E. Damon - All Rights Reserved Directions: Scroll through the presentation and enter the answers (which are really the questions) and the questions (which are really the answers). Enter in the categories on the main game boards. As you play the game, click on the TEXT DOLLAR AMOUNT that the contestant calls, not the surrounding box. When they have given a question, click again anywhere on the screen to see the correct question. Keep track of which questions have already been picked by printing out the game board screen and checking off as you go. Click on the “Game” box to return to the main scoreboard. Enter the score into the black box on each players podium. Continue until all clues are given. When finished, DO NOT save the game. This will overwrite the program with the scores and data you enter. You MAY save it as a different name, but keep this file untouched!

5. © Mark E. Damon - All Rights Reserved Round 1Round 2 Final Jeopardy

6. © Mark E. Damon - All Rights Reserved Scientific Vocabulary (Part 1) Scientific Vocabulary (Part 2) Forces Describing & Measuring Motion Forces & Motion Hodge- Podge BONUS: Does Mass Make a Difference? $100 $200 $300 $400 $500 Round 2 Final Jeopardy Scores $300

7. © Mark E. Damon - All Rights Reserved $100 A push or pull measured in newtons is a _____. (a) motion (b) gravity (c) weight (d) force A push or pull measured in newtons is a _____. (a) motion (b) gravity (c) weight (d) force

8. © Mark E. Damon - All Rights Reserved $100 (d) force Scores

9. © Mark E. Damon - All Rights Reserved $200 A change in position of an object is _____. (a) motion (b) gravity (c) weight (d) inertia A change in position of an object is _____. (a) motion (b) gravity (c) weight (d) inertia

10. © Mark E. Damon - All Rights Reserved $200 (a) motion Scores

11. © Mark E. Damon - All Rights Reserved $300 The location of an object is its _____. (a) weight (b) inertia (c) volume (d) position The location of an object is its _____. (a) weight (b) inertia (c) volume (d) position

12. © Mark E. Damon - All Rights Reserved $300 (d) position Scores

13. © Mark E. Damon - All Rights Reserved $400 The measure of the speed and direction of motion of an object is its _____. (a) gravity (b) force (c) weight (d) velocity The measure of the speed and direction of motion of an object is its _____. (a) gravity (b) force (c) weight (d) velocity

14. © Mark E. Damon - All Rights Reserved $400 (d) velocity Scores

15. © Mark E. Damon - All Rights Reserved $500 _____ is the property of matter that keeps an object at rest or keeps it moving in a straight line. (a) Motion (b) Gravity (c) Weight (d) Inertia _____ is the property of matter that keeps an object at rest or keeps it moving in a straight line. (a) Motion (b) Gravity (c) Weight (d) Inertia

16. © Mark E. Damon - All Rights Reserved $500 (d) Inertia Scores

17. © Mark E. Damon - All Rights Reserved $100 _____ is any change in the speed or direction of an object’s motion. (a) Gravity (b) Acceleration (c) Force (d) Friction _____ is any change in the speed or direction of an object’s motion. (a) Gravity (b) Acceleration (c) Force (d) Friction

18. © Mark E. Damon - All Rights Reserved $100 (b) Acceleration Scores

19. © Mark E. Damon - All Rights Reserved $200 A measure of the gravitational force acting on an object is _____. (a) gravity (b) force (c) weight (d) inertia A measure of the gravitational force acting on an object is _____. (a) gravity (b) force (c) weight (d) inertia

20. © Mark E. Damon - All Rights Reserved $200 (c) weight Scores

21. © Mark E. Damon - All Rights Reserved $300 _____ is a force that resists motion between objects that are touching. (a)Magnetism (b)Friction (c)Gravity (d)Acceleration _____ is a force that resists motion between objects that are touching. (a)Magnetism (b)Friction (c)Gravity (d)Acceleration

22. © Mark E. Damon - All Rights Reserved $300 (b) Friction Scores

23. © Mark E. Damon - All Rights Reserved

24. $400 The force of attraction between Earth and other objects is _____. (a) magnetism (b) friction (c) gravity (d) acceleration The force of attraction between Earth and other objects is _____. (a) magnetism (b) friction (c) gravity (d) acceleration

25. © Mark E. Damon - All Rights Reserved $400 (c) gravity Scores

26. © Mark E. Damon - All Rights Reserved $500 The distance an object travels divided by the time it takes to travel is its _____. (a) speed (b) inertia (c) acceleration (d) gravitation The distance an object travels divided by the time it takes to travel is its _____. (a) speed (b) inertia (c) acceleration (d) gravitation

27. © Mark E. Damon - All Rights Reserved $500 (a) speed Scores

28. © Mark E. Damon - All Rights Reserved $100 Which one of the following causes acceleration? (a) force (b) inertia (c) speed (d) weight Which one of the following causes acceleration? (a) force (b) inertia (c) speed (d) weight

29. © Mark E. Damon - All Rights Reserved $100 (a) force Scores

30. © Mark E. Damon - All Rights Reserved $200 What force holds the moon in its orbit around Earth? (a) friction (b) gravitation (c) position (d) weight What force holds the moon in its orbit around Earth? (a) friction (b) gravitation (c) position (d) weight

31. © Mark E. Damon - All Rights Reserved $200 (b) gravitation Scores

32. © Mark E. Damon - All Rights Reserved $300 What force is shown by Arrow 2? (a) electric force (b) friction (c) gravity (d) magnetic force What force is shown by Arrow 2? (a) electric force (b) friction (c) gravity (d) magnetic force

33. © Mark E. Damon - All Rights Reserved $300 (c) gravity Scores

34. © Mark E. Damon - All Rights Reserved $400 A force that acts between any two objects and pulls them together is _____. (a) magnetism (b) friction (c) gravitation (d) acceleration A force that acts between any two objects and pulls them together is _____. (a) magnetism (b) friction (c) gravitation (d) acceleration

35. © Mark E. Damon - All Rights Reserved $400 (c) gravitation Scores

36. © Mark E. Damon - All Rights Reserved $500 Which type of force causes a boy jumping off a chair to move toward Earth? (a) buoyant (b) electrical (c) gravitational (d) magnetic Which type of force causes a boy jumping off a chair to move toward Earth? (a) buoyant (b) electrical (c) gravitational (d) magnetic

37. © Mark E. Damon - All Rights Reserved $500 (c) gravitational Scores

38. © Mark E. Damon - All Rights Reserved $100 If you increase the force on an object, what do you probably also increase? (a) acceleration (b) gravity (c) inertia (d) mass If you increase the force on an object, what do you probably also increase? (a) acceleration (b) gravity (c) inertia (d) mass

39. © Mark E. Damon - All Rights Reserved $100 (a) acceleration Scores

40. © Mark E. Damon - All Rights Reserved $200 What two things must Stephanie measure to find the speed of a moving bicycle? (a) mass and inertia (b) distance and time (c) gravity and friction (d) position and motion What two things must Stephanie measure to find the speed of a moving bicycle? (a) mass and inertia (b) distance and time (c) gravity and friction (d) position and motion

41. © Mark E. Damon - All Rights Reserved $200 (b) distance and time Scores

42. © Mark E. Damon - All Rights Reserved $300 A dial in the picture tells you how many kilometers per hour the car is going. What does this measure? (a) acceleration (b) speed (c) velocity (d) weight A dial in the picture tells you how many kilometers per hour the car is going. What does this measure? (a) acceleration (b) speed (c) velocity (d) weight

43. © Mark E. Damon - All Rights Reserved $300 (b) speed Scores

44. © Mark E. Damon - All Rights Reserved $400 What information about the car can you find by using the dial and compass together? (a) its acceleration (b) its motion (c) its speed (d) its velocity What information about the car can you find by using the dial and compass together? (a) its acceleration (b) its motion (c) its speed (d) its velocity

45. © Mark E. Damon - All Rights Reserved $400 (d) its velocity Scores

46. © Mark E. Damon - All Rights Reserved $500 After studying acceleration, Amos explains why the gas pedal in a car is called an accelerator. What should Amos say in his explanation? (a) An accelerator increases friction. (b) An accelerator causes a change in the car’s velocity. (c) An accelerator balances the effect of gravitational force. (d) An accelerator is used to keep the velocity the same. After studying acceleration, Amos explains why the gas pedal in a car is called an accelerator. What should Amos say in his explanation? (a) An accelerator increases friction. (b) An accelerator causes a change in the car’s velocity. (c) An accelerator balances the effect of gravitational force. (d) An accelerator is used to keep the velocity the same.

47. © Mark E. Damon - All Rights Reserved $500 (b) An accelerator causes a change in the car’s velocity. Scores

48. © Mark E. Damon - All Rights Reserved $100 What does weight measure? (a) electrical force (b) friction (c) gravity (d) acceleration What does weight measure? (a) electrical force (b) friction (c) gravity (d) acceleration

49. © Mark E. Damon - All Rights Reserved $100 (c) gravity Scores

50. © Mark E. Damon - All Rights Reserved $200 What is the least number of photographs needed to tell if a horse is moving? (a) 1 (b) 2 (c) 7 (d) 100 What is the least number of photographs needed to tell if a horse is moving? (a) 1 (b) 2 (c) 7 (d) 100

51. © Mark E. Damon - All Rights Reserved $200 (b) 2 Scores

52. © Mark E. Damon - All Rights Reserved $300 If an object has a large mass on Earth, what else does it have a lot of? (a) inertia and volume (b) weight and inertia (c) weight and speed (d) weight and volume If an object has a large mass on Earth, what else does it have a lot of? (a) inertia and volume (b) weight and inertia (c) weight and speed (d) weight and volume

53. © Mark E. Damon - All Rights Reserved $300 (b) weight and inertia Scores

54. © Mark E. Damon - All Rights Reserved $400 Henri wants to explain what is meant by mass. How should he describe the mass of his body? (a) the weight of his body in newtons (b) the weight of his body in pounds (c) the volume occupied by his body (d) the amount of matter in his body Henri wants to explain what is meant by mass. How should he describe the mass of his body? (a) the weight of his body in newtons (b) the weight of his body in pounds (c) the volume occupied by his body (d) the amount of matter in his body

55. © Mark E. Damon - All Rights Reserved $400 (d) the amount of matter in his body Scores

56. © Mark E. Damon - All Rights Reserved $500

57. © Mark E. Damon - All Rights Reserved $500 Scores

58. © Mark E. Damon - All Rights Reserved $100 Does Mass Make a Difference? Allison’s brother, Michael, needed an investigation for the Science Fair. He had three balls of different masses. He decided to roll each ball down a ramp hitting an empty box at the bottom of the ramp. Ball A’s Mass = 10 g Ball B’s Mass = 20 g Ball C’s Mass = 30 g A.Identify which ball will push the box the farthest. Does Mass Make a Difference? Allison’s brother, Michael, needed an investigation for the Science Fair. He had three balls of different masses. He decided to roll each ball down a ramp hitting an empty box at the bottom of the ramp. Ball A’s Mass = 10 g Ball B’s Mass = 20 g Ball C’s Mass = 30 g A.Identify which ball will push the box the farthest.

59. © Mark E. Damon - All Rights Reserved $100 Scores Part A Ball C will push the box the farthest.

60. © Mark E. Damon - All Rights Reserved $200 Does Mass Make a Difference? Allison’s brother, Michael, needed an investigation for the Science Fair. He had three balls of different masses. He decided to roll each ball down a ramp hitting an empty box at the bottom of the ramp. Ball A’s Mass = 10 g Ball B’s Mass = 20 g Ball C’s Mass = 30 g B. Explain why the ball you chose in part A will push the box the farthest distance. Does Mass Make a Difference? Allison’s brother, Michael, needed an investigation for the Science Fair. He had three balls of different masses. He decided to roll each ball down a ramp hitting an empty box at the bottom of the ramp. Ball A’s Mass = 10 g Ball B’s Mass = 20 g Ball C’s Mass = 30 g B. Explain why the ball you chose in part A will push the box the farthest distance.

61. © Mark E. Damon - All Rights Reserved $200 Part B Ball C will push the box the farthest distance because it has the greatest mass (30 grams) of all 3 balls. Since the ramps and empty boxes in all 3 situations are the same size, shape, and weight, the ONLY variable that is different is the mass of the balls. Since Ball C has the greatest mass, it will also have the greatest momentum (speed) as it rolls down the ramp. Ball C will apply more force to make the box move. Therefore, the empty box will move the farthest when Ball C hits it. Scores

62. © Mark E. Damon - All Rights Reserved $300 Does Mass Make a Difference? Allison’s brother, Michael, needed an investigation for the Science Fair. He had three balls of different masses. He decided to roll each ball down a ramp hitting an empty box at the bottom of the ramp. Ball A’s Mass = 10 g Ball B’s Mass = 20 g Ball C’s Mass = 30 g C. Describe one change that Michael can do to make the box you chose travel farther.

63. © Mark E. Damon - All Rights Reserved $300 Scores Part C One change Michael can do to make Box C travel farther is: (1)Reduce the friction on the surface of Ramp C by adding a lubricant such as oil, hand-soap, etc. (2)Increase the height of the ramp, make it steeper. (3)Apply more force to Ball C. Push Ball C with more force with your hand. (4)Get a ball with more mass than 30 grams to roll down the ramp and hit the box. (5)Get a box with less mass or weight for Ball C to hit against it at the bottom of the ramp.

64. © Mark E. Damon - All Rights Reserved $400

65. © Mark E. Damon - All Rights Reserved $400 Scores

66. © Mark E. Damon - All Rights Reserved $500

67. © Mark E. Damon - All Rights Reserved $500 Scores

68. © Mark E. Damon - All Rights Reserved $200 $400 $600 $800 $1000 Round 1 Final Jeopardy Scores

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131. © Mark E. Damon - All Rights Reserved Scores Final Jeopardy Question

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133. Scores