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Impulse & Momentum

Impulse & Momentum. Physics 11. Momentum. Momentum. Momentum. The product of a particle’s mass and velocity is called the momentum of the particle:. Momentum is a vector, with units of kg m/s. A particle’s momentum vector can be decomposed into x - and y - components. Impulse.

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Impulse & Momentum

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  1. Impulse & Momentum Physics 11

  2. Momentum

  3. Momentum Momentum • The product of a particle’s mass and velocity is called the momentum of the particle: • Momentum is a vector, with units of kg m/s. • A particle’s momentum vector can be decomposed into x- and y-components.

  4. Impulse • When an object is accelerated, typically the force will only be applied for a given time • So instead of considering Newton’s Second Law as we have previously discussed it, we will rearrange the equation

  5. Impulse

  6. Use Newton’s Second Law and substitute the definition for acceleration Rearrange the equation so there are no terms in the denominator This expression is known as impulse (J) Impulse

  7. Momentum can also be defined starting from Newton’s Second Law The rate of change of momentum can also be used to determine the force Momentum is defined as the product of an object’s mass and velocity  1st Law of Motion Momentum

  8. Impulse and momentum can be related in order to solve dynamics problems Substitute the definition for momentum into the impulse equation Impulse-Momentum

  9. Conservation Laws

  10. Conservation Laws

  11. Conservation Laws Momentum Bar Charts Vectors

  12. Collisions Physics 11

  13. Collisions

  14. Atomic Model of a Collision Atomic Model of a Collision Slide 9-25

  15. Review… 1st Law of Motion: 2nd Law of Motion:

  16. Conservation of Momentum • The vector quantity momentum will be conserved in any collision • That is, the sum of all momenta prior to the collision will be equal to the sum of all momenta following a collision • Every object that has mass and velocity will have momentum and must be included in the total momentum of the system

  17. Collisions • With any collision, it is imperative that you diagram the system prior to and following the collision and identify all objects involved in the collision • This allows you to ensure that you calculate the total momentum for the system to properly analyze the situation • While this may seem onerous, generally we will be looking at a maximum of two particles

  18. Recall Momentum • Momentum • Impulse

  19. Momentum Conservation • Momentum is conserved • This is an expression of Newton’s first law: • “An object at rest or in uniform motion will remain at rest or in uniform motion unless acted on by an external force.” • External forces can change the momentum of a system (Impulse)

  20. Momentum Conservation • In interactions between two bodies, momentum of one object can change, but the total momentum of the system remains constant.

  21. Momentum Bar Charts Momentum Bar Charts • Impulse Jx transfers momentum to an object. • If an object has an initial momentum of 2 kg m/s, a +1 kg m/s impulse exerted on the object increases its momentum to 3 kg m/s. pfx = pix + Jx • We can represent this “momentum accounting” with a momentum bar chart. • The figure shows how one 1 unit of impulse adds to 2 units of initial momentum to give 3 units of final momentum.

  22. Types of Momentum Problems • Elastic collisions • Inelastic collisions • Explosions Final Initial Final Initial Initial Final

  23. Types of Collisions Elastic  conserve both Ek and momentum Inelastic  conserve only momentum

  24. Collision • A billiard ball, mass 155g, is travelling at 3.5m/s across the table. It strikes another ball at rest, mass 150g and comes to rest. What is the velocity of the second ball after the collision? Is the collision elastic or inelastic?

  25. Summary… • 1st Law of Motion: • 2nd Law of Motion: • 3rd of Motion: • Law of Conservation of Momentum

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