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50:50. 15. $1 Million. 14. $500,000. Welcome to Who Wants to be a Millionaire. 13. $250,000. 12. $125,000. 11. $64,000. 10. $32,000. 9. $16,000. 8. $8,000. 7. $4,000. 6. $2,000. 5. $1,000. 4. $500. 3. $300. 2. $200. 1. $100. 15. $1 Million. 14. $500,000. 13.
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50:50 15 $1 Million 14 $500,000 Welcome toWho Wants to be a Millionaire 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million Which of the following is an example of a balanced force? 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 D: a porch swing hanging from the porch roof 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: a baby pushed in a stroller on a sidewalk B: a child running down a path D: a porch swing hanging from the porch roof C: a car traveling on a highway
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 Which of the following are two factors that determine speed? $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 B: distance and time 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: acceleration and time B: distance and time C: velocity and time D: motion and time
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 Which of the following best represents acceleration as presented on a graph? 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 A: velocity change vs. time 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: velocity change vs. time B: speed change vs. time C: distance change vs. time D: motion change vs. time
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 A push or a pull that always acts on an object 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 D: force 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: motion B: gravity C: acceleration D: force
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 A measure that does not change when an object’s location changes 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 C: mass 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: weight B: velocity C: mass D: gravity
Congratulations! Congratulations! Congratulations! You’ve Reached the $1,000 Milestone!
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million A driver of an SUV drives past a jogger on the subdivision walking path. Relative to the jogger, the SUV is traveling 15 m/s. What is the reference point in this situation? 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 C: the jogger 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 B: the path on which the jogger is jogging A: the SUV D: the road on which the SUV is traveling C: the jogger
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million Which of the following would NOT help you move a heavy object across a concrete floor? 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 C: foam rubber 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: ball bearing B: soap suds C: foam rubber D: steel rods
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 A combined force that causes something to move 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 B: unbalanced forces 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: balanced forces B: unbalanced forces C: Net force D: changed
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 Your mass if you move to Jupiter 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 A: unchanged 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: unchanged B: changed C: Don’t Know D: Bigger
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 When a mover puts furniture on a dolly with wheels, which type of friction is the mover using to make his job easier? 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 B: rolling kinetic friction 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: sliding kinetic friction B: rolling kinetic friction C: static friction D: gravitational friction
Congratulations! Congratulations! Congratulations! You’ve Reached the $32,000 Milestone!
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 Which of the following does NOT describe mass? 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 A: is a measure of gravitational force 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: is a measure of gravitational force B: is measured in kilograms C: is a measure of matter D: remains constant
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 Which of the following does NOT describe weight? 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 D: is constant 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: is a measure of gravitational force B: changes as gravitational force changes C: can be measured in newtons D: is constant
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 Which of these is opposed by static friction? 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 A: a worker pushing on a non-moving box 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: a worker pushing on a non-moving box B: a chair sliding on a floor D: a pencil rolling on a table C: a dog running in a yard
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 Which of these is opposed by kinetic friction? 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 A: a box sliding on a floor 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 B: a child leaning on a building A: a box sliding on a floor C: a book sitting on a table D: a cat standing in a yard
15 $1 Million 14 $500,000 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 5 $1,000 4 $500 3 $300 2 $200 1 $100
15 $1 Million 14 $500,000 The law of universal gravitation says that gravitational force is 13 $250,000 12 $125,000 11 $64,000 10 $32,000 9 $16,000 8 $8,000 7 $4,000 6 $2,000 C: related to mass and distance. 5 $1,000 4 $500 3 $300 2 $200 50:50 1 $100 A: related to weight and distance. B: related to mass and friction. C: related to mass and distance. D: related to weight and friction.