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A block hangs in equilibrium

  1. A block (mass m) hangs from a spring (spring constant k). The block is released from rest a distance d above its equilibrium
    1. answers icon 0 answers
    2. Eva asked by Eva
    3. views icon 498 views
  2. A block hangs in equilibrium from a vertical spring. When a second identical block is added, the original block sags by 5.00 cm.
    1. answers icon 1 answer
    2. Tara asked by Tara
    3. views icon 1,362 views
  3. A 100-g block hangs from a spring with k = 5.2 N/m. At t = 0 s, the block is 20.0 cm below the equilibrium position and moving
    1. answers icon 2 answers
    2. Annabelle asked by Annabelle
    3. views icon 454 views
  4. A 100-g block hangs from a spring with k = 4.6 N/m. At t = 0 s, the block is 20.0 cm below the equilibrium position and moving
    1. answers icon 2 answers
    2. Jim asked by Jim
    3. views icon 445 views
  5. A 100-g block hangs from a spring with k = 5.3 N/m. At t = 0 s, the block is 20.0 cm below the equilibrium position and moving
    1. answers icon 5 answers
    2. Jay asked by Jay
    3. views icon 695 views
  6. A 4.40kg block hangs from a spring with spring constant 2160N/m . The block is pulled down 4.60cm from the equilibrium position
    1. answers icon 1 answer
    2. Dib asked by Dib
    3. views icon 500 views
  7. Original Question:A block hangs in equilibrium from a vertical spring. When a second identical block is added, the original
    1. answers icon 1 answer
    2. Tara asked by Tara
    3. views icon 3,664 views
  8. A 4.40kg block hangs from a spring with spring constant 2160N/m . The block is pulled down 4.60cm from the equilibrium position
    1. answers icon 0 answers
    2. Dib asked by Dib
    3. views icon 549 views
  9. A 4.40kg block hangs from a spring with spring constant 2160N/m . The block is pulled down 4.60cm from the equilibrium position
    1. answers icon 0 answers
    2. Dib asked by Dib
    3. views icon 506 views
  10. A 2 kg block of cheddar cheese hangs from an ideal spring of negligible mass. When displaced from equilibrium and released, the
    1. answers icon 1 answer
    2. Kristina asked by Kristina
    3. views icon 953 views