4.3 – Newton’s 3rd Law.

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Presentation transcript:

4.3 – Newton’s 3rd Law

Objectives State Newton’s Third Law of Motion. Identify action and reaction forces. Identify, for each action-reaction pair, the body on which the reaction force acts and determine the magnitude and direction of the reaction force.

Newton’s 3rd law of motion When one object exerts a force on a second object, the second one exerts a force on the first that is equal in strength and opposite in direction

Action and Reaction When a force is applied in nature, a reaction force occurs at the same time. When you jump on a trampoline, for example, you exert a downward force on the trampoline. Simultaneously, the trampoline exerts an equal force upward, sending you high into the air.

Action and Reaction Forces Don’t Cancel According to the third law of motion, action and reaction forces act on different objects. Thus, even though the forces are equal, they are not balanced because they act on different objects.

Example A swimmer “acts” on the water, the “reaction” of the water pushes the swimmer forward. A net unbalanced force acts on the swimmer to change their motion

Rocket Propulsion By Newton’s third law, the gases exert a force In a rocket engine, burning fuel produces hot gases The rocket engine exerts a force on these gases and causes them to escape out the back of the rocket By Newton’s third law, the gases exert a force on the rocket and push it forward.

4.3b Notes - Momentum

Objectives Define momentum. Calculate momentum. Recognize when momentum is conserved, using Newton’s 2nd and 3rd laws.

Momentum A moving object has a property called momentum that is related to how much force is needed to change its motion The momentum of an object is the product of its mass and velocity.

The unit for momentum is kg · m/s. Momentum is given the symbol p and can be calculated with the following equation: P = mv The unit for momentum is kg · m/s. Notice that momentum has a direction because velocity has a direction.

Force and Changing Momentum Acceleration is the difference between the initial and final velocity, divided by the time The net force on an object equals its mass times its acceleration

By combining these two relationships, Newton’s second law can be written in this way: In this equation mvf is the final momentum and mvi is the initial momentum.

Law of Conservation of Momentum The momentum of an object doesn’t change unless its mass, velocity, or both change. Momentum can be transferred from one object to another. The law of conservation of momentum states that if a group of objects exerts forces only on each other, their total momentum doesn’t change.

When Objects collide The results of a collision depend on the momentum of each object. When the first puck hits the second puck from behind, it gives the second puck momentum in the same direction.

Impulse An object experiences a force for a specific amount of time that results in a change in momentum Object’s mass either speeds up, slows down, or changes direction Equation form = F • t = m • Δ v.   In the egg drop that length of time your apparatus falls is the specific time

In-Class Assignment/Homework 4.3 Reinforcement WKT

In-Class Assignment/Homework Directed Reading Overview