Section 4 – pg 393 Newton’s Third Law Chapter 10 Section 4 – pg 393 Newton’s Third Law
Newton’s Third Law of Motion Pg 393 Newton’s Third Law of Motion If one object exerts a force on another object, then the second object exerts a force of equal strength in the opposite direction For every action there is an equal but opposite reaction
Action-Reaction Pairs Pg 394 Action-Reaction Pairs When you jump, you push on the ground with your feet (action force) The ground pushes back with equal force (reaction force) A kayaker speeds up by exerting an action force on water with a paddle (action force) The water pushes back on the paddle with a equal force (reaction force)
Pg 394 Detecting Motion Motion in action-reaction pairs is not always noticeable. When you push off the earth during jumping, the earth inertia is too great for the force you exert to cause any noticeable motion
Do Action-Reaction Forces Cancel? Pg 395 Do Action-Reaction Forces Cancel? The action and reaction forces do not cancel out because they are acting on different objects.
Momentum All moving objects have a “quantity of motion” (momentum) Pg 396 Momentum All moving objects have a “quantity of motion” (momentum) Momentum: a characteristic of a moving object that depends on both the mass and the velocity of the object Momentum = Mass x Velocity Described by its direction as well as quantity The momentum of an object is in the same direction as its velocity
The more momentum a moving object has, the harder it is to change its velocity A car has a lot of momentum because it has a lot of mass A bullet has a lot of momentum because it has a high velocity Trains have more mass than cars, so they win A bullet traveling through air at about 1.5 times the speed of sound can be seen in this image. When a moving object breaks the sound barrier, a shock wave and often turbulence are created. In this image, the curved line at the nose of the bullet is a shock wave. Other shock waves can be seen alongside the bullet, and a turbulent wake trails behind it. Pg 397
Conservation of Momentum The total amount of momentum objects have is conserved when they collide. Momentum may be transferred from one object to another as the velocity of the objects change, but none is lost The law of conservation of momentum states that, in the absence of outside forces, the total momentum of objects that interact does not change Friction is an example of an outside force Pg 397
Chapter 10 Section 4 Homework- Pg 399
1A. State Newton’s third law of motion
1B. According to Newton’s third law of motion, how are action and reaction forces related?
1C. A boy catches a ball while standing on roller skates 1C. A boy catches a ball while standing on roller skates. What happens to the boy’s velocity and the ball’s velocity?
2A. What is momentum?
2B. What is the momentum of a parked car?
2C. Why is it important for drivers to allow more distance between their cars when they travel at faster speeds?
3A. What is meant by “conservation of momentum”?
3B. The total momentum of two marbles before a collision is 0 3B. The total momentum of two marbles before a collision is 0.06 No outside forces act on the marbles. What is the total momentum of the marbles after the collision?
4. What is the momentum of a 920-kg car moving at a speed of 25 m/s? Remember: Momentum = Mass x Velocity
5. Which has more momentum: a 250 kg dolphin swimming at 4 m/s, or a 350 kg manatee swimming at 2 m/s? 250 x 4 = 1,000 350 x 2 = 700