Practical Applications of Newton's Laws: A Science Competition Project

AI Thread Summary
The discussion focuses on practical project ideas to demonstrate Newton's laws for a science competition. For the third law, suggestions include using two balls connected by a thread with a spring and a rocket or balloon experiment. The first law can be illustrated by placing a floating object in water to show that it remains still without an external force. For the second law, participants discuss demonstrating the relationship between force, mass, and acceleration, suggesting experiments involving gravity and a mass to show F=ma. Overall, the thread provides collaborative ideas for effectively proving Newton's laws through hands-on experiments.
Lunthar
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Homework Statement



I have to prove Newton's laws with a practical project, for my school's science competition. This is what I have until now:

3rd law ==> a) Two balls tied with a thread with a spring between them.
b) A rocket/balloon... but I don't know how... any ideas??

1st law ==> a) Fill a recipent with water, put any floating object into it, if there's no force, there won't be any movement.

2nd law==> b) no idea...

Can you help please?? (And excuse my english, greetings from Spain!)
 
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Thanks, and happy new year 2007! But what I was requesting were practical examples, I understand the laws... but I don't know good ways for proving it... specially for an event like that...
 
Third law - use Archimede's principle:

Hang an object from a spring scale into a beaker of water resting on an electronic scale.
 
Thanks!:wink: Any idea for second law?
 
For the first you could slide a (dry?) ice puck over a level glass pane.

The second requires much more effort:
1. Show that the acceleration of an object (constant mass) is directly proportional to the applied force.

2. Show that the acceleration of an object (variable mass and constant applied force) is inversely proportional to the mass of the object.

This then proves that a \propto \frac{F}{m}
 
Thanks, so I have now an static and in movement practise for first law. But I still don't know how to prove the second one...
 
andrevdh said:
... The second requires much more effort:
1. Show that the acceleration of an object (constant mass) is directly proportional to the applied force.

2. Show that the acceleration of an object (variable mass and constant applied force) is inversely proportional to the mass of the object.

This then proves that a \propto \frac{F}{m}

This part of my previous post refers to "proving" the second law.
 
You could use the acceleration of gravity on a mass on Earth to show Newtons second law. Newtons second law is F=ma. So you could say that an object at reast on Earth is moving 9.8m/s^2. The mass could weigh 1 kilogram so 1 kilogram *9.8m/s^2 will of course equal 9.8 Newtons or 2.2 pounds.
 
  • #10
Good idea! Thank you!
 

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