Newton’s 1st Law Demonstrations

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Presentation transcript:

Newton’s 1st Law Demonstrations http://science360.gov/obj/video/70fadaa8-c3d4-4132-ba1f-c98be5caeb14/science-nfl-football-newtons-first-law-motion

Vocabulary Review Motion – a change in position Inertia- the tendency of an object to resist a change in its motion. Objects with more mass have more inertia Force- a push or a pull Balanced forces- cancel each other out, no motion occurs Unbalanced forces- don’t cancel each other out and motion occurs Newton’s 1st Law of Motion- an object at rest tends to stay at rest and an object in motion tends to stay in motion unless acted on by another force. Friction- a force that acts to resist motion between two touching objects

Magic Table Cloth Place the funnel upside down on top of the blue paper. Quickly remove the blue paper (pulling down and away helps!) Observe the motion of the funnel. What’s Going On? Initially all objects are at rest. When an outside force (your hands) acts to remove the paper, it does not act on the funnel. Therefore, the funnel remains at rest on the top of the table.

Drop the Domino Place the card on top of the beaker. Place the domino (or 2) on top of the card. Quickly flick the card out from underneath the domino. Observe the motion of the domino. What’s Going On? Initially all objects are at rest. When an outside force (your finger) acts to move the card, it does not act on the beaker or domino. Therefore, they remain at rest. The domino does experience vertical motion due to gravity and drops into the beaker.

Ball in the Box Place the ball in the empty box. Slowly push the box. Abruptly stop the box. Observe the motion of the ball. What’s Going On? According to Newton’s First Law, an object in motion tends to stay in motion unless acted upon by an unbalanced outside force, so the ball keeps rolling even though the box stopped.

Whirlpool Fill the beaker halfway with water. Swirl the beaker until you have made a whirlpool. Quickly stop the beaker. Observe the motion of the water. Does it stop too? What’s Going On? Inertia causes the water, which was in motion, to remain in motion. It doesn’t stop right away when you stop twisting the beaker.

Short Stack Stack the dominos in a tower. Use the ruler to hit the domino on the bottom of the tower with a swiping motion. Observe the motion of the domino stack. What’s Going On? The domino being hit is now in motion, it will stay in motion until air and the table stops its motion. The stack is at rest. It will stay at rest and should remain standing. The downward movement is caused by gravity.

Inertia Blocks Find the two blocks and lift them one at time in your hands. Are they the same? Are you using the same amount of force to lift them? Why is one harder to move? What’s Going On? Objects with more mass have more inertia (resistance to moving or stopping movement).

Friction Slide Set up the ruler like a ramp. Give a gentle push and slide a block down the ramp. How could you slow down the sliding block? What’s Going On? To increase friction, you can change the texture of the surface and make the surface rougher (add sandpaper for example). This will slow the motion of the blocks.

Tug of War Two people sitting across from each other should each take a spring scale and hook the hook onto one of the binder clip loops. Slowly and carefully, pull the spring scales apart until the binder clip starts to open, then hold it. Read the amount of force (in Newtons) on the spring scales being used to pull on the binder clip. Is this a balanced or unbalanced force? Will it result in motion or no motion? What’s Going On? Equal amounts of force should be used in this tug of war. This is a balanced force and will result in no motion.

A Challenge Can you use inertia to perform the magic tablecloth trick with a larger set up? ASK FOR YOUR PARENT’S PERMISSION BEFORE YOU BEGIN AND PRACTICE WITH PLASTIC FIRST!!! http://www.youtube.com/watch?v=PcG IUZzWoVc Email a video of your performance!

What did I learn? Write your name at the top of the paper. Complete an exit slip stating in at least three sentences what you now know about : Forces (balanced and/or unbalanced) Friction Inertia Newton’s 1st Law of Motion