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Physics 1A, Section 2 November 8, 2010. Quiz #3  was due 3 hours ago.

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Presentation on theme: "Physics 1A, Section 2 November 8, 2010. Quiz #3  was due 3 hours ago."— Presentation transcript:

1 Physics 1A, Section 2 November 8, 2010

2 Quiz #3  was due 3 hours ago.

3 Crash Course in Collision Problems Assume collision happens in an instant. Describe “before” and “after” cases, nearly simultaneous. During collision, ignore relatively weak external forces, compared to strong impulsive forces. Momentum is conserved:  m j v j = constant Kinetic energy: elastic:  1 / 2 m j v j 2 = constant (partially) inelastic:  1 / 2 m j v j 2 decreases completely inelastic: objects stick to each other

4 Crash Course in Collision Problems Assume collision happens in an instant. Describe “before” and “after” cases, nearly simultaneous. During collision, ignore relatively weak external forces, compared to strong impulsive forces. Momentum is conserved:  m j v j = constant Kinetic energy: elastic:  1 / 2 m j v j 2 = constant (partially) inelastic:  1 / 2 m j v j 2 decreases completely inelastic: objects stick to each other Quadratic equation required in general  algebra more challenging. To simplify: work in frame with one object at rest, or in center of mass frame.

5 Crash Course in Collision Problems Assume collision happens in an instant. Describe “before” and “after” cases, nearly simultaneous. During collision, ignore relatively weak external forces, compared to strong impulsive forces. Momentum is conserved:  m j v j = constant Kinetic energy: elastic:  1 / 2 m j v j 2 = constant (partially) inelastic:  1 / 2 m j v j 2 decreases completely inelastic: objects stick to each other Algebra much simpler, since there is only one “unknown” (velocity of combined object).

6 Final Problem 19

7 Oscillation Problems  basic oscillator (no damping or forcing): mass on spring, pendulum:  d 2 x/dt 2 +  0 2 x = 0  Trial solution:  x = A cos(  0 t) + B sin(  0 t)  A and B are determined by initial conditions, often x(t=0) and dx/dt(t=0).  For oscillator with damping and/or forcing, see box on p. 330 of Frautschi et al.

8 Final Problem 19 Answer: a) v’ = v m 2 /(m 1 + m 2 ), in –x direction b) m 2 = k/  0 2 – m 1 c) A = -m 2 v/sqrt[k(m 1 +m 2 )], B = 0

9  Quiz Problem 53 (oscillation and rotation)  Quiz Problem 25 (rotational motion)  Optional, but helpful, to try these in advance. Thursday, November 11:

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