| A | B |
|---|
| Inertia | This is the proper name for Newton's first law of motion |
| Acceleration | Anytime an object speeds up, slows down or changes direction it is considered an ____________ |
| Newton's second law of motion | Force = Mass X Acceleration |
| Newton's third law of motion | For every action there is an equal and opposite reaction. |
| Newton's first law of motion | A person is in a moving car. The driver slams on the breaks and the people in the car slide forward in their seat is an example of which law |
| Newton's first law of motion | When something is dropped out of a moving object such as a car or plane, the object will continue to move in the same direction even as it starts to fall down is an example of which law |
| Newton's first law of motion | A magician quickly pulls a tablecloth. The plates and glasses sitting on the tablecloth remain where they are as the tablecloth is pulled from beneath them is an example of which law |
| Newton's first law of motion | You are walking along and you slip on something on the floor. Your feet slide out from under you but your upper body appears to stay in the same place until it falls straight down is an example of which law |
| Newton's second law of motion | A batter swings his bat harder and the ball goes farther outfield is an example of which law |
| Newton's second law of motion | We put larger engine into out rocket and it in turn went higher and faster is an example of which law |
| Newton's third law of motion | A Newton's cradle is an example of which law |
| Newton's third law of motion | The idea that if you were to push on an object, that object would push back against you with the same amount of force describes which law |
| Velocity | Acceleration is a change in what |
| Acceleration | An ___________ is a change in velocity (anytime something speeds, slows down or changes direction. |
| Force | In the equation "Force=Mass X Acceleration," this term stands for a push or pull on an object |
| Mass | In the equation "Force=Mass X Acceleration," this term stands for the object’s size and weight |
| Acceleration | In the equation "Force=Mass X Acceleration," this term stands for anytime an object speeds up, slows down or changes direction |
| Newton's third law of motion | The idea that if you were to push on an object, that object would push back against you with the same amount of force |
| Accelerate | The harder you push or pull on something, the more the object will _______________ |
| Newton's first law of motion | An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. |
