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A 0.377 kg bead slides

  1. A bead with a hole through it slides on a wire track. The wire is threaded through the hole in the bead, and the bead slides
    1. answers icon 1 answer
    2. views icon 107 views
  2. A bead with a hole through it slides on a wire track. The wire is threaded through the hole in the bead, and the bead slides
    1. answers icon 1 answer
    2. views icon 90 views
  3. A 0.500 kg bead slides on a straight frictionless wire with a velocity of 1.50 cm/s to the right. The bead collides elastically
    1. answers icon 3 answers
    2. Wendell asked by Wendell
    3. views icon 3,180 views
  4. A 0.425-kg blue bead slides on a frictionless, curved wire, starting from rest at point where h = 1.50 m. At point , the blue
    1. answers icon 0 answers
    2. tom asked by tom
    3. views icon 1,132 views
  5. A 0.395-kg blue bead slides on a frictionless, curved wire, starting from rest at point in the figure below, where h = 1.50 m.
    1. answers icon 1 answer
    2. Alex asked by Alex
    3. views icon 5,270 views
  6. LOOP, SPRING AND BEAD (14 points possible)A bead of mass m slides without friction on a vertical hoop of radius R . The bead
    1. answers icon 2 answers
    2. Anonymous asked by Anonymous
    3. views icon 643 views
  7. LOOP, SPRING AND BEAD (14 points possible)A bead of mass m slides without friction on a vertical hoop of radius R . The bead
    1. answers icon 0 answers
    2. Anonymous asked by Anonymous
    3. views icon 588 views
  8. LOOP, SPRING AND BEAD (14 points possible)A bead of mass m slides without friction on a vertical hoop of radius R . The bead
    1. answers icon 0 answers
    2. Anonymous asked by Anonymous
    3. views icon 618 views
  9. LOOP, SPRING AND BEAD (14 points possible)A bead of mass m slides without friction on a vertical hoop of radius R . The bead
    1. answers icon 1 answer
    2. Anonymous asked by Anonymous
    3. views icon 539 views
  10. LOOP, SPRING AND BEAD (14 points possible)A bead of mass m slides without friction on a vertical hoop of radius R . The bead
    1. answers icon 1 answer
    2. Anonymous asked by Anonymous
    3. views icon 605 views