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Momentum and Impulse

Momentum and Impulse. Momentum. p = mv. Momentum is defined as “Inertia in Motion”. Impulse = Change in Momentum. Consider Newton’s 2 nd Law and the definition of acceleration:. Impulse-Momentum Theorem:. Units of Impulse: Ns Units of Momentum: kg m/s. Impulse – Momentum Theorem.

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Momentum and Impulse

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  1. Momentum and Impulse

  2. Momentum p = mv Momentum is defined as “Inertia in Motion”

  3. Impulse = Change in Momentum Consider Newton’s 2nd Law and the definition of acceleration: Impulse-Momentum Theorem: Units of Impulse: Ns Units of Momentum: kg m/s

  4. Impulse – Momentum Theorem IMPULSE CHANGE IN MOMENTUM This theorem reveals some interesting relationships such as the INVERSE relationship between FORCE and TIME

  5. Impulse – Momentum Relationships

  6. Impulse – Momentum Relationships Constant Since TIME is directly related to the VELOCITY when the force and mass are constant, the LONGER the cannonball is in the barrel the greater the velocity. Also, you could say that the force acts over a larger displacement, thus there is more WORK. The work done on the cannonball turns into kinetic energy.

  7. Collisions Consider 2 objects speeding toward each other. When they collide...... Due to Newton’s 3rd Law the FORCE they exert on each other are EQUAL and OPPOSITE. The TIMES of impact are also equal. Therefore, the IMPULSES of the 2 objects colliding are also EQUAL

  8. Collisions If the Impulses are equal then the changes in MOMENTUM are also equal! Conservation of Momentum

  9. Elastic Collision A situation where the objects DO NOT STICK is one type of collision Notice that in EACH case, you have TWO objects BEFORE and AFTER the collision.

  10. Inelastic Collision Another type of collision is one where the objects “STICK” together. Notice you have TWO objects before the collision and ONE object after the collision.

  11. Explosion This type is often referred to as “backwards inelastic”. Notice you have ONE object ( we treat this as a SYSTEM) before the explosion and TWO objects after the explosion.

  12. Types of Collisions Sometimes, objects stick together or blow apart. Momentum is ALWAYS conserved. Objects collide and don’t stick Objects collide and stick 1 object breaks in to 2 objects Elastic Collision = Kinetic Energy is Conserved Inelastic Collision = Kinetic Energy is not Conserved

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