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Momentum Notes. Momentum Momentum ( ρ)= Mass x Velocity ρ = mv ρ = momentum (kg·m/s) m= mass (kg) v= velocity (m/s)

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Presentation on theme: "Momentum Notes. Momentum Momentum ( ρ)= Mass x Velocity ρ = mv ρ = momentum (kg·m/s) m= mass (kg) v= velocity (m/s)"— Presentation transcript:

1 Momentum Notes

2 Momentum Momentum ( ρ)= Mass x Velocity ρ = mv ρ = momentum (kg·m/s) m= mass (kg) v= velocity (m/s)

3 Momentum Linear momentum of an object of mass m moving with a velocity v is the product of the mass and velocity Inertia in motion

4 Law of Conservation of Momentum Law of conservation of momentum says that in the absence of an external force, the total momentum of a system remains unchanged.

5 Law of Conservation of Momentum – Continued 1) This law applies to a closed system (one where no mass is gained or lost)

6 Law of Conservation of Momentum – Continued Momentum conserved if: 2) At all times, only two objects are involved 3) The only forces involved are internal

7 Impulse I=Ft I= impulse (N*s) F=force (N) t= time (s) Also Ft=mv 2 -mv 1 F=Force (N) m=mass (kg) v=velocity (m/s)

8 Impulses Product of the average net force exerted on an object and the time interval over which the force acts. F t = impulse (I) Impulses are measured in Ns

9 Impulse/Momentum Theorem Impulse of an object is equal to the change in momentum it causes F t = mv 2 – mv 1

10 Impulse If you extend the time of impact you reduce the amount of force.

11 Types of Collisions Elastic Collisions – when objects collide without being permanently deformed and without generating heat Ex: Billiard balls colliding

12 Elastic Collisions m 1 v 1 + m 2 v 2 = m 1 v 1 + m 2 v 2 m 1 =mass of 1 st object (kg) v 1 =velocity of 1 st object(m/s) m 2 = mass of 2 nd object(kg) v 2 =velocity of 2 nd object(m/s)

13 Types of Collisions Inelastic Collisions – whenever colliding objects become tangled or couple together Ex: Two freight train cars hitting and continuing

14 Inelastic Collision m 1 v 1 + m 2 v 2 = m total v total m 1 =mass of 1 st object (kg) v 1 =velocity of 1 st object(m/s) m 2 = mass of 2 nd object(kg) v 2 =velocity of 2 nd object(m/s) m tot = 1 st and 2 nd mass added v tot = final velocity of both

15 Calculations momentum before collision = momentum after collision ρ before = ρ after ρ 1 + ρ 2 = ρ 1 + ρ 2

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