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 “What would happen If we were to flick one quarter into three dimes?”

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Presentation on theme: " “What would happen If we were to flick one quarter into three dimes?”"— Presentation transcript:

1

2  “What would happen If we were to flick one quarter into three dimes?”

3  We predict that all three dimes will move because the quarter will have more force being moved than if it was staying still.

4  The materials we used were two rulers, one quarter, and three dimes.

5  First, we took two rulers and taped them to a flat surface, supposedly a table.  Then, we lined the three dimes up between the two rulers, then we took the quarter and lined it up, too!  Afterword, we flicked the quarter against the three dimes several times.

6  First Law- An object in motion will stay in motion and an object at rest will stay at rest unless acted on by an outside force.  Second Law-The amount of acceleration of an object depends on the force applied and the mass of the object.  Third Law- For every action there is an equal and opposite reaction.

7  First Time- Two of the dimes moved when little force was applied when the quarter was flicked.  Second Time- All three of the dimes moved when more force was applied when the quarter was flicked again.  Third Time- All three of the dimes moved again when another big force was applied to the dimes.

8 First Time Second Time Third Time Two of the With the help This time, they dimes mov- of a greater all moved ed when a force, all the again. But, littler force dimes mov- they went was applied ed 5 and a a little far- The dimes half cm ther, 6 cm. moved 3 cm

9  “ Our hypothesis was correct. The dimes all moved with a greater force instead of a littler force.”  “ Yet, the first time we flicked the quarter, only two of the dimes moved instead of all three.”

10  “I wonder if we could switch the coins around- maybe flick three dimes instead of one quarter?”  “ I wonder if we put the rulers closer, maybe it would make the quarter move straighter?”  “ I wonder when we applied a much harder force, if it would move even farther?”

11  Greer, Kristen, Laws of motion Graphic organizer, Laws of motion foldable, and data T-Chart, 6 th grade Integrated science class, 2014. Stanford, KY, Lloyd McGuffey 6 th grade center.  Made By: Jayden Lunsford, Tara Watson, and Corey Jones.

12  http://www.youtube.com/watch?featur e=player_detailpage&v=m http://www.youtube.com/watch?v=NYV MlmL0BPQ&feature=player_detailpage n34mnnDnKU http://www.youtube.com/watch?featur e=player_detailpage&v=m http://www.youtube.com/watch?v=NYV MlmL0BPQ&feature=player_detailpage n34mnnDnKU

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