Force = Mass x Acceleration
An object in motion will remain in motion unless acted upon by an outside force
Force - Mass x Acceleration
For every action, there is an equal and opposite reaction
Also known as the law of interia
For every action, there is an equal and opposite
An object's acceleration depends on the mass of the object and the force applied
An object in object will remain in motion unless acted upon by an outside force
A seat belt prevents you from going through the windshield of your car at 60mph
Must include two objects acting and reacting to each other
Rocket taking off into space
A book pushes down on a desk and the desk pushes up on a book
Two teams in a tug-of-war exert the same amount of force on each and the rope does not move
Having ketchup come out of a bottle when you shake it
Pushing against a wall and feeling the wall push back against you
Adding more groceries to your shopping cart makes it harder to accelerate
for every action there is an equal and opposite reaction
Flicking a stack of coins with one coins and only the bottom one moves
For every action there is an equal and opposite reaction
Being able to pull a tablecloth out from under a entire place setting
An Escalade (SUV) taking longer to stop than a Corvette (car)
Your hand hurting after punching a locker
An object ❌ will remain at rest UNLESS acted upon by an ❌.
As mass stays the same, when force increases, acceleration .
As force stays the same, when mass increases, acceleration .
For every action there is an and opposite reaction
Force is measured in a unit called a .
We say the more matter an object has inside it, the more it has.
Two vehicles are broken down by the side of the road. One small sports car. The other is a large party bus. The drivers need to push the vehicles forward and onto the shoulder of the road. Both drivers can push with the same amount of force. The small sports car will get to the shoulder first because it has less mass then the large party bus. Right?
