301 Chapter Outline and Problems Section 1 (23pts)
  • Write all answers in your bound journal
  • Make it NEAT and in COMPLETE SENTENCES, clearly identify which section you are working (using numbers)
  • Box final answers if doing math.
  • -4pt if you do not title and date the entry
  • -1pt (per infraction) if you do not clearly identify the sections, or number the problems
     
  1. Why does Newton win against the elephant every time?
  2. Why does Newton accelerate more?
  3. What is Newton's First law?
  4. What is Newton's Second law?
  5. What is Newton's Third law?
  6. What are the action and reaction forces in regard to the skateboarder?
  7. Why do action and reaction forces not cancel out?
  8. What are the five guidelines to help you sort out action and reaction forces?
  9. What is momentum (p)?
  10. What is the equation and the units for momentum?
  11. What is the momentum of a 40kg skateboarder moving at 10m/s (SHOW YOUR MATH)?
  12. What is impulse?
  13. What is the equation used to determine impulse?
  14. What are the units for impulse?
  15. What impulse is needed to hit a stationary 0.1kg tennis ball to a velocity of 30m/s (SHOW YOUR MATH)?
  16. A net force of 100 N is applied for 5 seconds to a 10-kg car that is initially at rest. What is the speed of the car at the end of the 5 seconds (SHOW YOUR MATH)?
  17. A 15-N force acts for 10 seconds on a 1-kg ball initially at rest. What is the ball’s final momentum (SHOW YOUR MATH)?
  18. How much time should a 100-N force take to increase the speed of a 10-kg car from 10 m/sec to 100 m/sec (SHOW YOUR MATH)?
  19. What does the the law of conserved momentum mean? (use the skateboarder throwing the ball to explain)
  20. When you jump up, what happens to the earth?
  21. An astronaut floating in space throws a 2-kilogram hammer to the left at 15 m/sec. If the astronaut’s mass is 60 kilograms, how fast does the astronaut move to the right after throwing the hammer (SHOW YOUR MATH)?
  22. Two children on ice skates start at rest and push off from each other. One has a mass of 30 kg and moves back at 2 m/sec. The other has a mass of 15 kg. What is the second child’s speed (SHOW YOUR MATH)?
  23. Standing on an icy pond, you throw a 0.5 kg ball at 40 m/sec. You move back at 0.4 m/sec. What is your mass (SHOW YOUR MATH)? 
      
   
     
  p = mv
  p = 0.1kg * 30m/s
  p = 3kg*m/s
  _________________________________________________________________  
 
  impulse = force * time = change in momentum; 
  momentum = mass × velocity.
  ~~~~   Mass * Velocity = Force * Time   
  ~~~~   10kg * ? m/s = 100N * 5seconds 
  ~~~~   ? m/s = (100N * 5sec)/ 10kg
  ~~~~   50m/s
   _________________________________________________________________  
  
  ~~~~   Mass * Velocity = Force * Time   ~~~~ 
  ~~~~   1kg * ? m/s = 15N * 10seconds 
  ~~~~   ? m/s = (15N * 10sec)/ 10kg
  ~~~~   15m/s = velocity
  ~~~~   p = mv
  ~~~~   p = 15m/s * 10kg
  ~~~~   p = 150kg*m/s  
   _________________________________________________________________   
   
  ~~~~   Ft = MV2 - MV1   ~~~~ 
  ~~~~   100N * ? sec = (10kg * 100m/s) - (10kg * 10m/s) 
  ~~~~   100N * ? sec = 900kg*m/s
  ~~~~   ? sec = (900kg*m/s)/100N
  ~~~~   9 sec
   _________________________________________________________________   
   
  ~~~~    MaVa = MhVh   ~~~~ 
  ~~~~   60kg * ? m/s = 2kg * 15m/s 
  ~~~~   ? m/s = (2kg * 15m/s)/60kg 
  ~~~~   0.5m/s away from the hammer
 
  _________________________________________________________________   
   
  ~~~~    M1V1 = M2V2  ~~~~ 
  ~~~~   30kg * 2 m/s = 15kg * ?m/s 
  ~~~~   (30kg * 2 m/s)/ 15kg = ?m/s 
  ~~~~   4m/s away from the hammer
  
    _________________________________________________________________   
   
  ~~~~    M1V1 = M2V2  ~~~~ 
  ~~~~   0.5kg * 40 m/s = ?kg * 0.4m/s 
  ~~~~   (0.5kg * 40 m/s)/ 0.4m/s = ?kg   
  ~~~~   50kg