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AP Physics Chapter 6 Momentum and Collisions

AP Physics Chapter 6 Momentum and Collisions. Chapter 6: Momentum and Collisions. 6.1 Linear Momentum 6.2 Impulse 6.3 The Conservation of Linear Momentum 6.4 Elastic and Inelastic Collisions 6.5 Center of Mass. Homework for Chapter 6. Read Chapter 6

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AP Physics Chapter 6 Momentum and Collisions

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  1. AP Physics Chapter 6Momentum and Collisions

  2. Chapter 6: Momentum and Collisions 6.1 Linear Momentum 6.2 Impulse 6.3 The Conservation of Linear Momentum 6.4 Elastic and Inelastic Collisions 6.5 Center of Mass

  3. Homework for Chapter 6 • Read Chapter 6 • HW 6.A : p. 203: 3, 6, 7, 10, 11, 13, 18, 26, 29, 31, 33, 34, 35. • HW 6.B: p. 205: 38, 40, 41, 43, 49. p.206: 53-56, 60, 62, 68, 70.

  4. 6.1 Linear Momentum6.2 Impulse

  5. Physics Daily WarmUps # 91 Loosen Up! II Impulse is found by multiplying the force acting on an object by the amount of time the force acts. The amount of impulse that an object experiences is equal to the amount that its momentum changes. This means that the same change in momentum can be accomplished by exerting a large force for a short amount of time or a small force for a longer amount of time. Seat belts are designed to give a little when they are properly fastened. If not, they would not work as well at keeping you from injury in an accident or sudden stop. Use the concept of impulse equaling the change in momentum to explain why they need to give. Solution: The time to bring a person to stop is increased, thereby decreasing the force exerted on the person by the belt.

  6. 6.1 Linear Momentum

  7. 6.1 Linear Momentum • The SI unit of momentum is the kg∙m/s. • The total linear momentum of a system is the vector sum of the momenta of the individual particles. P = p1 + p2 + p3 + … = ∑ pi i

  8. 6.1 Linear Momentum Example 6.1: Which has more linear momentum: a) a 1500 kg car moving at 25.0 m/s or b) a 40,000 kg truck moving at 1.00 m/s?

  9. 6.1 Linear Momentum Example 6.2: Two identical 1500 kg cars are moving perpendicular to each other. One moves with a speed of 25.0 m/s due north and the other moves at 15.0 m/s due east. What is the total linear momentum of the system?

  10. 6.1 Linear Momentum: Check for Understanding

  11. 6.1 Linear Momentum: Check for Understanding

  12. 6.1 Linear Momentum: Check for Understanding

  13. 6.1 Linear Momentum: Check for Understanding

  14. 6.2 Impulse Ft

  15. 6.2 Impulse ● In fact, Newton used the momentum form of his second law when he first started formatting the law. ● For a system in which mass is not a constant, such as rocket propulsion, the momentum form should be used.

  16. 6.2 Impulse Example 6.3: A 0.10 kg ball is dropped onto a table top. The speeds of the ball right before hitting the table top and right after hitting the table top are 5.0 m/s and 4.0 m/s respectively. If the collision between the ball and the tabletop lasts 0.15 s, what is the average force exerted on the ball by the table top?

  17. 6.2 Impulse: Check for Understanding 1.

  18. 6.2 Impulse: Check for Understanding

  19. 6.2 Impulse: Check for Understanding 2.

  20. 6.2 Impulse: Check for Understanding Answer: b

  21. 6.2 Impulse: Check for Understanding 3.

  22. 6.2 Impulse: Check for Understanding J

  23. Homework for Sections 6.1 & 6.2 • HW 6.A : p. 203: 3, 6, 7, 10, 11, 13, 18, 19, 22, 26, 29, 31, 33, 34, 35.

  24. 6.3 The Conservation of Linear Momentum6.4 Elastic and Inelastic Collisions

  25. Physics Daily WarmUps # 97 Collision Conservation Momentum is always conserved in any collision, as is energy. However, energy usually transformed into several different types as a result of the collision. In most collisions, a significant amount of the kinetic energy is converted into other forms, and the colliding objects’ movements are greatly affected. These are called inelastic collisions. There are some collisions, like the colliding steel balls suspended by strings in a Newton’s Cradle, in which kinetic energy is almost conserved. Since so little energy is lost in each collision, they seem to just go on bouncing. These collisions represent elastic collisions. Elastic collisions always seem to catch our attention. Because they are so rare, they seem unusual to us. Write down a personal experience where you witnessed an elastic collision.

  26. 6.3 The Conservation of Linear Momentum

  27. 6.3 The Conservation of Linear Momentum

  28. Momentum is conserved in an isolated system. The motion in two dimensions may be analyzed in terms of the components of momentum, which is also conserved. If m1 and m2 are equal, they will split apart at a 90 degree angle.

  29. Conservation of Momentum • Before the rifle is fired, the total momentum of the rifle and the bullet is zero. • During firing, there are equal and opposite internal forces, and the instantaneous total momentum of the rifle-bullet system remains zero. • When the bullet leaves the barrel, the total momentum of the system is still zero.

  30. 6.3 The Conservation of Linear Momentum Example 6.4: A 50 kg pitching machine (excluding the baseball) is placed on a frozen pond. The machine fires a 0.40 kg baseball with a speed of 35 m/s in the horizontal direction. What is the recoil velocity of the pitching machine? (Assume negligible friction.)

  31. 6.3 The Conservation of Linear Momentum Example 6.5: A 10 gram bullet moving at 300 m/s is fired into a 1.0 kg block. The bullet emerges (does not stay embedded in the block) with half of its original speed. What is the velocity of the block right after the collision?

  32. 6.3 The Conservation of Linear Momentum: Check for Understanding

  33. 6.3 The Conservation of Linear Momentum: Check for Understanding

  34. 6.3 The Conservation of Linear Momentum: Check for Understanding

  35. 6.3 The Conservation of Linear Momentum: Check for Understanding

  36. 6.4 Elastic and Inelastic Collisions

  37. 6.4 Elastic and Inelastic Collisions

  38. 6.4 Elastic and Inelastic Collisions

  39. 6.4 Elastic and Inelastic Collisions

  40. Inelastic collisions • In inelastic collisions, momentum is conserved but kinetic energy is not. • Collisions like the ones shown here, in which the objects stick together , are called completely inelastic collisions. • The maximum amount of kinetic energy lost is consistent with the conservation of momentum. 6.4 Elastic and Inelastic Collisions

  41. 6.4 Elastic and Inelastic Collisions • Example 6.6: While standing on skates on a frozen pond, a student of mass 70.0 kg catches a 2.00 kg ball travelling horizontally at 15.0 m/s toward him. • What is the speed of the student and the ball immediately after he catches it? • How much kinetic energy is lost in the process?

  42. 6.4 Elastic and Inelastic Collisions Example 6.7: A rubber ball with a speed of 5.0 m/s collides head on elastically with an identical ball at rest. Find the velocity of each object after the collision.

  43. 6.4 Elastic and Inelastic Collisions: Check for Understanding

  44. 6.4 Elastic and Inelastic Collisions: Check for Understanding

  45. 6.4 Elastic and Inelastic Collisions: Check for Understanding

  46. 6.4 Elastic and Inelastic Collisions: Check for Understanding

  47. 6.4 Elastic and Inelastic Collisions: Check for Understanding

  48. 6.4 Elastic and Inelastic Collisions: Check for Understanding

  49. 6.4 Elastic and Inelastic Collisions: Check for Understanding

  50. 6.4 Elastic and Inelastic Collisions: Check for Understanding

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