Chapter 5 Work and Energy

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Across
  1. 2. - The force needed to stretch or compress a spring increases with the amount of stretch. The force a spring exerts on an object is directly proportional to the amount of stretch but in the opposite direction.
  2. 5. - The formula to calculate gravitational potential energy.
  3. 6. - The energy of an object in motion.
  4. 11. - A measure of energy transfer that occurs when an object is moved over a distance by an external force.
  5. 13. - The energy stored in a stretched or compressed spring or elastic cord.
  6. 17. - Formula to calculate total mechanical energy.
  7. 18. - the rate at which work is done
Down
  1. 1. - ME with friction and drag formula.
  2. 3. - The formula to calculate work(each abs value line is in its own box).
  3. 4. - The formula to calculate elastic potential energy.
  4. 7. - SI unit of work/scalar.
  5. 8. - ME conservation fromula.
  6. 9. - △ke.
  7. 10. - power formula.
  8. 12. - The formula to calculate kinetic energy.
  9. 14. - The stored energy of position possessed by an object.
  10. 15. - Hooke's Law formula.
  11. 16. - The ability to do work.