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Explore the Principles of Force and Motion: Join the Science Jeopardy Challenge!

Dive into the exciting world of physics with our action-packed Jeopardy game focusing on forces, motion, and gravity! Test your knowledge as you tackle questions about friction, acceleration, and momentum. From the mysteries of gravity to daily applications of friction, this game will enhance your understanding of fundamental scientific concepts. Compete with friends and sharpen your skills while having fun. Are you ready to put your science knowledge to the test? Click to begin the challenge now!

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Explore the Principles of Force and Motion: Join the Science Jeopardy Challenge!

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Presentation Transcript

  1. JEOPARDY! Click Once to Begin

  2. JEOPARDY! Put a Force on THIS! I Can’t Resist Gravity, You’re Bringing Me Down I’m So Dizzy, My Head is Spinning Action/ Reaction & Other Stuff Don’t Mess With My Moment-um 100 100 100 100 100 100 100 100 100 100 100 100 200 200 200 200 200 200 200 200 200 200 200 200 300 300 300 300 300 300 300 300 300 300 300 300 400 400 400 400 400 400 400 400 400 400 400 400 500 500 500 500 500 500 500 500 500 500 500 500

  3. What causes friction between two objects

  4. Two things friction depends on

  5. The acceleration of an object that has mass is in the same direction as the net force on the object.

  6. What the acceleration of an object depends on

  7. A Newton is equal to this

  8. When your pushing force is not enough to break the microwelds between objects

  9. A force that opposes the motion of my socks as I slip down the hall

  10. The ancient Egyptians may have used this to help move the stones of the pyramids.

  11. Daily Double!!! The oil I put in my car keeps the metal parts moving smoothly past each other because of this.

  12. The amount of air resistance on an object depends on these three things.

  13. The force that opposes gravity on a falling object

  14. The fastest speed a falling object will reach due to drag

  15. How oil reduces friction

  16. What happens to the acceleration of an object if the mass is decreased and force on it stays the same

  17. An object with a larger mass will take longer to reach terminal velocity because it takes more of this to stop its acceleration.

  18. Gravity uses this kind of acceleration to keep a satellite in orbit around Earth.

  19. The law of universal gravitation states that the force of gravity can be calculated if these two things are known.

  20. The fact that Uranus was observed to have a wobble was the reason this happened back in 1846.

  21. The amount of matter—or the number of particles—in an object

  22. The force of gravity pulling on the matter in an object

  23. Earth’s gravity causes objects thrown horizontally to have this kind of motion.

  24. A car trying to drive around a curve on a wet highway may continue going straight due to fluid friction and this type of force.

  25. A car with traction on a highway curve may continue around the curve if there is enough of this kind of force.

  26. Why action/reaction forces don’t cancel each other out

  27. You put a force on a ball by kicking it, and the ball puts this much force back on you.

  28. The formula for calculating how much momentum an object has

  29. This is what happens to the momentum of two identical objects when they collide at the same speed.

  30. This is how a person with less mass can have more momentum than a person with a larger mass.

  31. Kg ∙ m/s is the unit label for this.

  32. A bicycle and rider with a mass of 200 kg has a momentum of 800 kg x m/s Calculate the speed of the bicycle.

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