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Poll

Poll. F rope. Suppose a block is being raised by a rope at constant speed. Which is the correct free-body diagram of the block?. F rope. F rope. F. F. F. grav. grav. grav. A B C. S F y = 0. A. S F x = 0,. S F y ≠ 0. S F y = 0. S F y ≠ 0. B. S F x = 0,.

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Poll

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  1. Poll Frope Suppose a block is being raised by a rope at constant speed. Which is the correct free-body diagram of the block? Frope Frope F F F grav grav grav A B C

  2. SFy = 0 A. SFx = 0, SFy≠ 0 SFy= 0 SFy≠ 0 B. SFx = 0, C. SFx≠ 0, D. SFx≠ 0, Poll y In each situation, choose the answer that correctly describes the forces on the moving object in the coordinate frame shown. car speeding up on level road x

  3. • SFy = 0 A. SFx = 0, SFy≠ 0 SFy= 0 SFy≠ 0 B. SFx = 0, C. SFx≠ 0, D. SFx≠ 0, Poll child going down slide at constant speed In each situation, choose the answer that correctly describes the forces on the moving object in the coordinate frame shown. y x

  4. SFy = 0 A. SFx = 0, SFy≠ 0 SFy= 0 SFy≠ 0 B. SFx = 0, C. SFx≠ 0, D. SFx≠ 0, Poll y car speeding up on hill In each situation, choose the answer that correctly describes the forces on the moving object in the coordinate frame shown. x

  5. Poll You hold a baseball bat at one end. Your other hand is 10 cm from the end of the bat. If the bat has a mass 0.85 kg and the center of mass if 0.6 m from the end of the bat, what upward force must you apply in order to hold the bat horizontallly? 0.85 N 0.05 N 8.33 N 50 N 5.0 N

  6. Chapter 6--Energy Surroundings System

  7. Accounting Analogy Surroundings Your bank accounts

  8. Conservation of Energy

  9. Kinetic Energy - Energy of Motion Objects that are moving have energy associated with their motion, called kinetic energy. Units are Joules (J). 1 J = 1 N m

  10. Timeout! -- Einstein A particle of mass m has a total energy E It can be broken into two parts: energy at rest (rest energy) and energy of motion (kinetic energy).

  11. Poll A sprinter starts from rest at the starting line and reaches a speed of approximately 10 m/s. During the interval from the starting line to the finish line, the kinetic energy of the sprinter; in other words, its change in kinetic energy is . increases; positive decreases; negative remains constant; zero

  12. Poll You drive your car at a constant speed of 45 mph for 30 s. During this time interval, the change in your kinetic energy is positive negative zero

  13. Poll While in your car, you double your speed from 20 mph to 40 mph. Your kinetic energy at 40 mph is the same as your kinetic energy at 20 mph 2 times your kinetic energy at 20 mph 4 times your kinetic energy at 20 mph 8 times your kinetic energy at 20 mph

  14. Work A force on the system by the surroundings does work on the system, which either adds energy to the system or removes energy from the system. Positive work transfers energy to the system from the surroundings. Negative work transfers energy from from the system to the surroundings.

  15. Simple System Consider a VERY simple system that only has kinetic energy. If a force does positive work on the system, the kinetic energy of the system increases decreases remains constant Surroundings System

  16. Poll Consider a VERY simple system that only has kinetic energy. If a force does negative work on the system, the kinetic energy of the system increases decreases remains constant Surroundings System

  17. Calculating work F F r Only the component of the force parallel to the displacement (of the point of application of the force) does work on the system.

  18. Example During a training run, a person pushes the bobsled with a force of 100 N at an angle of 20 downward (from the horizontal) for a distance of 5 m. How much work did she do on the bobsled?

  19. Example Suppose that you exert a force of 20 N to the left on the handle of a rowing machine as it moves 0.8 m to the right. How much work did you do on the system?

  20. Total Work If more than one force does work on the system then the total work done on the system is the sum of the work done by each force.

  21. Example Suppose that the guy on the bike exerts a force of 80 N to the right and the guy in the brown jacket exerts a force of 70 N to the left on the girl with the backpack as she skates 4 m to the right. What is the total work done on her?

  22. Example The girl with the backpack has a mass of 50 kg and an initial speed of 0.5 m/s. If the others do 40 J of work on her, what will be her speed?

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