1 / 15

Oscillations

Oscillations.

moana
Download Presentation

Oscillations

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Oscillations

  2. A mass connected to a spring is oscillating back and forth. Consider two possibilities.Which are true?(i) at some point during the oscillation the mass has v = 0 but a ≠0 (ii) at some point during the oscillation the mass has v = 0 and a = 0 . • Both occur sometime during the oscillation. • Neither occurs during the oscillation. • Only (i) occurs. • Only (ii) occurs. NEXUS/Physics Clicker Questions

  3. x x x x Tracking the motion 0 0 0 0 NEXUS/Physics Clicker Questions 0 0 0 0

  4. If curve (A) is which curve is • (A) • (B) • (C) • None of the above. NEXUS/Physics Clicker Questions

  5. Which of these curvesis described by with φ > 0 (and φ<< 2π)? • (A) • (B) • (C) • None of the above. NEXUS/Physics Clicker Questions

  6. When we pull the mass down from its equilibrium and release it, what happens to the energies? The gravitational PE • increases • decreases • remains the same • you can’t tell from the information given. NEXUS/Physics Clicker Questions

  7. When we pull the mass down from its equilibrium and release it, what happens to the energies? The spring PE • increases • decreases • remains the same • you can’t tell from the information given. NEXUS/Physics Clicker Questions

  8. When we push the mass upfrom its equilibrium and release it, what happens to the energies? The gravitational PE • increases • decreases • remains the same • you can’t tell from the information given. NEXUS/Physics Clicker Questions

  9. When we push the mass upfrom its equilibrium and release it, what happens to the energies? The springPE • increases • decreases • remains the same • you can’t tell from the information given. NEXUS/Physics Clicker Questions

  10. A mass is hanging from a spring. The position of the mass is measured by a sonic ranger sitting 25 cm under the mass’s equilibrium position. At some time, the mass is started oscillating. At a later time, the sonic ranger begins to take data.Which graph could represent thevelocity of the mass? NEXUS/Physics Clicker Questions

  11. A mass is hanging from a spring. The position of the mass is measured by a sonic ranger sitting 25 cm under the mass’s equilibrium position. At some time, the mass is started oscillating. At a later time, the sonic ranger begins to take data.Which graph could represent thenet forceon the mass? NEXUS/Physics Clicker Questions

  12. A mass is hanging from a spring. The position of the mass is measured by a sonic ranger sitting 25 cm under the mass’s equilibrium position. At some time, the mass is started oscillating. At a later time, the sonic ranger begins to take data.Which graph could represent thepotential energyof the spring? NEXUS/Physics Clicker Questions

  13. A pendulum is swinging back and forth between the extremes marked A and C. At point B it is directly below the pivot. When it reaches B, the string breaks. What path will the ball follow after the break? NEXUS/Physics Clicker Questions

  14. A pendulum is swinging back and forth between the extremes marked A and C. At point B it is directly below the pivot. When it reaches C, the string breaks. What path will the ball follow after the break? NEXUS/Physics Clicker Questions

  15. A pendulum swings in the plane in front of the marked board. There is a peg (indicated). When the ball passes the peg it will pivot from the peg instead of from the original pivot. How high will it go on the right? • Not as high as the 30 cm line. • Just up to the 30 cm line. • Higher than the 30 cm line. • You don’t have enough information to tell. peg NEXUS/Physics Clicker Questions

More Related