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# Newton's Laws of Motion Review Game Quiz

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A three part 1500+ PowerPoint slideshow from www.sciencepowerpoint.com becomes the roadmap for an interactive and amazing science experience that includes a bundled homework package, answer keys, unit notes, video links, review games, built-in quizzes and hands-on activities, worksheets, rubrics, games, and much more.
Also included are instruction to create a student version of the unit that is much like the teachers but missing the answer keys, quizzes, PowerPoint review games, hidden box challenges, owl, and surprises meant for the classroom. This is a great resource to distribute to your students and support professionals.
Text for the unit PowerPoint is presented in large print (32 font) and is placed at the top of each slide so it can seen and read from all angles of a classroom. A shade technique, as well as color coded text helps to increase student focus and allows teacher to control the pace of the lesson. Also included is a 12 page assessment / bundled homework that chronologically follows the slideshow for nightly homework and the end of the unit assessment, as well as a 8 page modified assessment. 9 pages of class notes with images are also included for students who require assistance, as well as answer keys to both of the assessments for support professionals, teachers, and homeschool parents. Many video links are provided and a slide within the slideshow cues teacher / parent when the videos are most relevant to play. Video shorts usually range from 2-7 minutes and are included in organized folders. Two PowerPoint Review games are included. Answers to the PowerPoint Review Games are provided in PowerPoint form so students can self-assess. Lastly, several class games such as guess the hidden picture beneath the boxes, and the find the hidden owl somewhere within the slideshow are provided. Difficulty rating of 8 (Ten is most difficult).
Areas of Focus: -Newton's First Law, Inertia, Friction, Four Types of Friction, Negatives and Positives of Friction, Newton's Third Law, Newton's Second Law, Potential Energy, Kinetic Energy, Mechanical Energy, Forms of Potential to Kinetic Energy, Speed, Velocity, Acceleration, Deceleration, Momentum, Work, Machines (Joules), Catapults, Trajectory, Force, Simple Machines, Pulley / (MA Mechanical Advantage), Lever /(MA),Wedge /(MA), Wheel and Axle (MA), Inclined Plane / (MA), Screw /(MA).
This unit aligns with the Next Generation Science Standards and with Common Core Standards for ELA and Literacy for Science and Technical Subjects. See preview for more information
If you have any questions please feel free to contact me. Thanks again and best wishes. Sincerely, Ryan Murphy M.Ed www.sciencepowerpoint@gmail.com
Teaching Duration = 4+ Weeks

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### Newton's Laws of Motion Review Game Quiz

1. 1. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
2. 2. • How to play… – Don’t play like Jeo_ _ _ _ y. – Class should be divided into several small groups. – Groups should use science journal (red slide notes), homework, and other available materials to assist you. – Groups can communicate quietly with each other but no sharing answers between groups. • Practice quietly communicating right now? • Practice Communication Question: • Your group gets to order one pizza and you can have two toppings. What does your group want?
3. 3. Questions 1-20 = 5pts Each Final Category (Bonus) = 1pt Each Final Questions = 5 pt wager If you wager 5 on the last question and get it wrong you lose 5 pts. Wager 5 and get it right you get 5 pts. “I’ll be about this big.” Find the Owl = Secretly write “Owl” in the correct box worth 1pt.
4. 4. • Is your name on the review sheet?
5. 5. • Is your name on the review sheet?
6. 6. • http://sciencepowerpoint.com/
7. 7. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
8. 8. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
9. 9. • Energy is all of the following except… A.) Ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
10. 10. • Energy is all of the following except… A.) The ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
11. 11. • Energy is all of the following except… A.) The ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
12. 12. • Energy is all of the following except… A.) The ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
13. 13. • Energy is all of the following except… A.) The ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
14. 14. • Energy is all of the following except… A.) The ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
15. 15. • Please fill in the missing boxes below… – An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. • Homozygous Copyright© 2010 Ryan P. Murphy
16. 16. • This is the name for the property of matter by which it retains its state of rest or its velocity along a straight line. – So long as it’s not acted upon by an external force.
17. 17. • This is the point in a body at which the whole mass may be considered as concentrated.
18. 18. • True or False? – Objects with similar air resistance fall at the same rate. • Everything falls at the same rate of speed in a vacuum.
19. 19. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
20. 20. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
21. 21. • Name this type of friction?
22. 22. • Name this type of friction when two surfaces are not moving past each other.
23. 23. • Name this type of friction between a rolling object and the surface it rolls on?
24. 24. • This is the name for designed or arranged to offer the least resistance to fluid flow. • Purebreds cannot produce offspring. Copyright© 2010 Ryan P. Murphy
25. 25. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
26. 26. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
27. 27. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
28. 28. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
29. 29. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
30. 30. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
31. 31. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
32. 32. • Fill in the blanks about Newton’s 2nd Law – The relationship between an object's mass m, its acceleration a, and the applied force F is… F=ma Copyright © 2010 Ryan P. Murphy
33. 33. • Mass: Measured in kilograms (kg) • Acceleration: Rate at which an object changes its velocity (m/s) • Force: To cause motion or change. – Newton: Amount needed to accelerate 1 kilogram of mass at the rate of 1 meter per second squared.
34. 34. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? Copyright © 2010 Ryan P. Murphy
35. 35. • A giraffes tongue has a mass of 1.25 kg and accelerates from its mouth to a speed of 3 meters per second before hitting the squirrel. – What was the force of the tongue hitting the squirrel? Copyright © 2010 Ryan P. Murphy
36. 36. • A giraffes tongue has a mass of 1.25 kg and accelerates from its mouth to a speed of 3 meters per second before hitting the squirrel. – What was the force of the tongue hitting the squirrel? Copyright © 2010 Ryan P. Murphy
37. 37. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? Copyright © 2010 Ryan P. Murphy
38. 38. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
39. 39. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
40. 40. • 3rd Law – For every action there’s an equal and opposite reaction. Copyright © 2010 Ryan P. Murphy
41. 41. • Sir Isaac Newton lived… – A.) 1954-2001 – B.) 27 B.C to 41 A.D. – C.) 1492-1502 – D.) 1642-1727 – E.) 980-1021 Copyright © 2010 Ryan P. Murphy
42. 42. • This means designed to move efficiently through the water. Copyright © 2010 Ryan P. Murphy
43. 43. Which of the two below will impact with the greatest force if they have the same acceleration? Copyright © 2010 Ryan P. Murphy
44. 44. • Engine oil is very important to keep pistons lubricated. This reduces friction and thus heat which can expand metal and cause damage. Copyright © 2010 Ryan P. Murphy
45. 45. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
46. 46. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT LILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
47. 47. Who are these famous sister athletes? Copyright © 2010 Ryan P. Murphy
48. 48. What famous skier can be seen here?
49. 49. Name this famous sprinter?
50. 50. Who is this famous athlete who won Gold in Berlin? Copyright © 2010 Ryan P. Murphy
52. 52. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 *21 *22 *23 *24 *25
54. 54. • A squirrel traveling at 1.5 m/s body checks another squirrel and the impact was 3 newtons. – How much did the attacking squirrel weigh? Copyright © 2010 Ryan P. Murphy
55. 55. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
56. 56. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
57. 57. • Energy is all of the following except… A.) Ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
58. 58. • Energy is all of the following except… A.) Ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
59. 59. • Energy is all of the following except… A.) Ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
60. 60. • Energy is all of the following except… A.) Ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
61. 61. • Energy is all of the following except… A.) Ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
62. 62. • Energy is all of the following except… A.) Ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
63. 63. • Energy is all of the following except… A.) Ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
64. 64. • Energy is all of the following except… A.) Ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is gained due to friction / force/ heat. -From low quality energy to high quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
65. 65. • Energy is all of the following except… A.) Ability to do work. B.) To cause something to change to move or change directions. C.) Energy cannot be created or destroyed, but transferred from one form to another. D.) Energy quality is lost due to friction / force/ heat. -From high quality energy to low quality energy. E.) None of the above. • Homozygous Copyright© 2010 Ryan P. Murphy
66. 66. • Please fill in the missing boxes below… – An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. • Homozygous Copyright© 2010 Ryan P. Murphy
67. 67. • Please fill in the missing boxes below… – An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. • Homozygous Copyright© 2010 Ryan P. Murphy
68. 68. • Please fill in the missing boxes below… – An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. • Homozygous Copyright© 2010 Ryan P. Murphy
69. 69. • Please fill in the missing boxes below… – An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. • Homozygous Copyright© 2010 Ryan P. Murphy
70. 70. • Please fill in the missing boxes below… – An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. • Homozygous Copyright© 2010 Ryan P. Murphy
71. 71. • Please fill in the missing boxes below… – An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. • Homozygous Copyright© 2010 Ryan P. Murphy
72. 72. • Please fill in the missing boxes below… – An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. • Homozygous Copyright© 2010 Ryan P. Murphy
73. 73. • This is the name for the property of matter by which it retains its state of rest or its velocity along a straight line. – So long as it’s not acted upon by an external force.
74. 74. • This is the name for the property of matter by which it retains its state of rest or its velocity along a straight line. – So long as it’s not acted upon by an external force.
75. 75. • This is the name for the property of matter by which it retains its state of rest or its velocity along a straight line. – So long as it’s not acted upon by an external force.
76. 76. • This is the point in a body at which the whole mass may be considered as concentrated.
77. 77. • This is the point in a body at which the whole mass may be considered as concentrated.
78. 78. • This is the point in a body at which the whole mass may be considered as concentrated.
79. 79. • This is the point in a body at which the whole mass may be considered as concentrated.
80. 80. • True or False? – Objects with similar air resistance fall at the same rate. • Everything falls at the same rate of speed in a vacuum.
81. 81. • True or False? – Objects with similar air resistance fall at the same rate. • Everything falls at the same rate of speed in a vacuum.
82. 82. • True or False? – Objects with similar air resistance fall at the same rate. • Everything falls at the same rate of speed in a vacuum. Galileo says…
83. 83. • True or False? – Objects with similar air resistance fall at the same rate. • Everything falls at the same rate of speed in a vacuum. Galileo says… “True”
84. 84. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
85. 85. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
86. 86. • Name this type of friction?
87. 87. • Name this type of friction?
88. 88. • Name this type of friction?
89. 89. • Name this type of friction when two surfaces are not moving past each other.
90. 90. • Name this type of friction when two surfaces are not moving past each other.
91. 91. • Name this type of friction when two surfaces are not moving past each other.
92. 92. • Name this type of friction between a rolling object and the surface it rolls on?
93. 93. • Name this type of friction between a rolling object and the surface it rolls on?
94. 94. • Name this type of friction between a rolling object and the surface it rolls on?
95. 95. • This is the name for designed or arranged to offer the least resistance to fluid flow. • Purebreds cannot produce offspring. Copyright© 2010 Ryan P. Murphy
96. 96. • This is the name for designed or arranged to offer the least resistance to fluid flow. • Purebreds cannot produce offspring. Copyright© 2010 Ryan P. Murphy
97. 97. • This is the name for designed or arranged to offer the least resistance to fluid flow. • Purebreds cannot produce offspring. Copyright© 2010 Ryan P. Murphy
98. 98. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
99. 99. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
100. 100. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
101. 101. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
102. 102. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
103. 103. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
104. 104. • Friction does all of the following except… – A.) Slows an object down until it stops. – B.) Defy Inertia. – C.) Wears object down. – D.) Produces heat. Copyright © 2010 Ryan P. Murphy
105. 105. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
106. 106. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
107. 107. • Fill in the blanks about Newton’s 2nd Law – The relationship between an object's mass m, its acceleration a, and the applied force F is… F=ma Copyright © 2010 Ryan P. Murphy
108. 108. • Fill in the blanks about Newton’s 2nd Law – The relationship between an object's mass m, its acceleration a, and the applied force F is… F=ma Copyright © 2010 Ryan P. Murphy
109. 109. • Fill in the blanks about Newton’s 2nd Law – The relationship between an object's mass m, its acceleration a, and the applied force F is… F=ma Copyright © 2010 Ryan P. Murphy
110. 110. • Fill in the blanks about Newton’s 2nd Law – The relationship between an object's mass m, its acceleration a, and the applied force F is… F=ma Copyright © 2010 Ryan P. Murphy
111. 111. • Fill in the blanks about Newton’s 2nd Law – The relationship between an object's mass m, its acceleration a, and the applied force F is… F=ma Copyright © 2010 Ryan P. Murphy
112. 112. • Fill in the blanks about Newton’s 2nd Law – The relationship between an object's mass m, its acceleration a, and the applied force F is… F=ma Copyright © 2010 Ryan P. Murphy
113. 113. • Fill in the blanks about Newton’s 2nd Law – The relationship between an object's mass m, its acceleration a, and the applied force F is… F=ma Copyright © 2010 Ryan P. Murphy
114. 114. • Fill in the blanks about Newton’s 2nd Law – The relationship between an object's mass m, its acceleration a, and the applied force F is… F=ma Copyright © 2010 Ryan P. Murphy
115. 115. • Mass: Measured in kilograms (kg) • Acceleration: Rate at which an object changes its velocity (m/s) • Force: To cause motion or change. – Newton: Amount needed to accelerate 1 kilogram of mass at the rate of 1 meter per second squared.
116. 116. • Mass: Measured in kilograms (kg) • Acceleration: Rate at which an object changes its velocity (m/s) • Force: To cause motion or change. – Newton: Amount needed to accelerate 1 kilogram of mass at the rate of 1 meter per second squared.
117. 117. • Mass: Measured in kilograms (kg) • Acceleration: Rate at which an object changes its velocity (m/s) • Force: To cause motion or change. – Newton: Amount needed to accelerate 1 kilogram of mass at the rate of 1 meter per second squared.
118. 118. • Mass: Measured in kilograms (kg) • Acceleration: Rate at which an object changes its velocity (m/s) • Force: To cause motion or change. – Newton: Amount needed to accelerate 1 kilogram of mass at the rate of 1 meter per second squared.
119. 119. • Mass: Measured in kilograms (kg) • Acceleration: Rate at which an object changes its velocity (m/s) • Force: To cause motion or change. – Newton: Amount needed to accelerate 1 kilogram of mass at the rate of 1 meter per second squared.
120. 120. • Mass: Measured in kilograms (kg) • Acceleration: Rate at which an object changes its velocity (m/s) • Force: To cause motion or change. – Newton: Amount needed to accelerate 1 kilogram of mass at the rate of 1 meter per second squared.
121. 121. • Mass: Measured in kilograms (kg) • Acceleration: Rate at which an object changes its velocity (m/s) • Force: To cause motion or change. – Newton: Amount needed to accelerate 1 kilogram of mass at the rate of 1 meter per second squared.
122. 122. • Mass: Measured in kilograms (kg) • Acceleration: Rate at which an object changes its velocity (m/s) • Force: To cause motion or change. – Newton: Amount needed to accelerate 1 kilogram of mass at the rate of 1 meter per second squared.
123. 123. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? Copyright © 2010 Ryan P. Murphy
124. 124. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? Copyright © 2010 Ryan P. Murphy
125. 125. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? Copyright © 2010 Ryan P. Murphy
126. 126. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? F=ma Copyright © 2010 Ryan P. Murphy
127. 127. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? F=ma Force 2,000 newtons m 200 kg a unknown Copyright © 2010 Ryan P. Murphy
128. 128. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? F=ma Force 2,000 newtons m 200 kg a unknown 2,000 N = 200 kg times X Copyright © 2010 Ryan P. Murphy
129. 129. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? F=ma Force 2,000 newtons m 200 kg a unknown 2,000 N = 200 kg times X Opposite of multiplying is dividing. Copyright © 2010 Ryan P. Murphy
130. 130. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? F=ma Force 2,000 newtons m 200 kg a unknown 2,000 N = 200 kg times X Opposite of multiplying is dividing. 2,000 N = X (m/s) 200 kg Copyright © 2010 Ryan P. Murphy
131. 131. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? F=ma Force 2,000 newtons m 200 kg a unknown 2,000 N = 200 kg times X Opposite of multiplying is dividing. 2,000 N = X (m/s) 200 kg X= Copyright © 2010 Ryan P. Murphy
132. 132. • A tree limb fell on a house and the impact was 2,000 newtons. – The tree weighed 200 kg, how fast was it moving in meters per second? F=ma Force 2,000 newtons m 200 kg a unknown 2,000 N = 200 kg times X Opposite of multiplying is dividing. 2,000 N = X (m/s) 200 kg X = 10 (m/s) Copyright © 2010 Ryan P. Murphy
133. 133. • A giraffes tongue has a mass of 1.25 kg and accelerates from its mouth to a speed of 3 meters per second before hitting the squirrel. – What was the force of the tongue hitting the squirrel? Copyright © 2010 Ryan P. Murphy
134. 134. • A giraffes tongue has a mass of 1.25 kg and accelerates from its mouth to a speed of 3 meters per second before hitting the squirrel. – What was the force of the tongue hitting the squirrel? Copyright © 2010 Ryan P. Murphy
135. 135. • A giraffes tongue has a mass of 1.25 kg and accelerates from its mouth to a speed of 3 meters per second before hitting the squirrel. – What was the force of the tongue hitting the squirrel? Copyright © 2010 Ryan P. Murphy
136. 136. • A giraffes tongue has a mass of 1.25 kg and accelerates from its mouth to a speed of 3 meters per second before hitting the squirrel. – What was the force of the tongue hitting the squirrel? Copyright © 2010 Ryan P. Murphy
137. 137. • A giraffes tongue has a mass of 1.25 kg and accelerates from its mouth to a speed of 3 meters per second before hitting the squirrel. – What was the force of the tongue hitting the squirrel? Copyright © 2010 Ryan P. Murphy
138. 138. • A giraffes tongue has a mass of 1.25 kg and accelerates from its mouth to a speed of 3 meters per second before hitting the squirrel. – What was the force of the tongue hitting the squirrel? F = ma F=? m = 1.25 kg a = 3 m/s F ? = 1.25 kg times 3 m/s Force = Copyright © 2010 Ryan P. Murphy
139. 139. • A giraffes tongue has a mass of 1.25 kg and accelerates from its mouth to a speed of 3 meters per second before hitting the squirrel. – What was the force of the tongue hitting the squirrel? F = ma F=? m = 1.25 kg a = 3 m/s F ? = 1.25 kg times 3 m/s Force = 3.75 newtons Copyright © 2010 Ryan P. Murphy
140. 140. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? Copyright © 2010 Ryan P. Murphy
141. 141. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? Copyright © 2010 Ryan P. Murphy
142. 142. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? Copyright © 2010 Ryan P. Murphy
143. 143. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? F=ma Copyright © 2010 Ryan P. Murphy
144. 144. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? F=ma Force = 4.9 newtons m = unknown a = 9.8 meters per second Copyright © 2010 Ryan P. Murphy
145. 145. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? F=ma Force = 4.9 newtons m = unknown a = 9.8 meters per second 4.9 N = Unknown (kg) multiplied by 9.8 m/s. Copyright © 2010 Ryan P. Murphy
146. 146. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? F=ma Force = 4.9 newtons m = unknown a = 9.8 meters per second 4.9 N = Unknown (kg) multiplied by 9.8 m/s. Opposite of multiplying is dividing. Copyright © 2010 Ryan P. Murphy
147. 147. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? F=ma Force = 4.9 newtons m = unknown a = 9.8 meters per second 4.9 N = Unknown (kg) multiplied by 9.8 m/s. Opposite of multiplying is dividing. 4.9 N = X (kg) 9.8 m/s Copyright © 2010 Ryan P. Murphy
148. 148. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? F=ma Force = 4.9 newtons m = unknown a = 9.8 meters per second 4.9 N = Unknown (kg) multiplied by 9.8 m/s. Opposite of multiplying is dividing. 4.9 N = X (kg) 9.8 m/s X= Copyright © 2010 Ryan P. Murphy
149. 149. • A squirrel falling from a tree at a rate of 9.8 meters per second hits the ground with a force of 4.9 newtons. – How much did the squirrel weigh? F=ma Force = 4.9 newtons m = unknown a = 9.8 meters per second 4.9 N = Unknown (kg) multiplied by 9.8 m/s. Opposite of multiplying is dividing. 4.9 N = X (kg) 9.8 m/s X = .5 kg Copyright © 2010 Ryan P. Murphy
150. 150. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
151. 151. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
152. 152. • 3rd Law – For every action there’s an equal and opposite reaction. Copyright © 2010 Ryan P. Murphy
153. 153. • 3rd Law – For every action there’s an equal and opposite reaction. Copyright © 2010 Ryan P. Murphy
154. 154. • 3rd Law – For every action there’s an equal and opposite reaction. Copyright © 2010 Ryan P. Murphy
155. 155. • Sir Isaac Newton lived… – A.) 1954-2001 – B.) 27 B.C to 41 A.D. – C.) 1492-1502 – D.) 1642-1727 – E.) 980-1021 Copyright © 2010 Ryan P. Murphy
156. 156. • Sir Isaac Newton lived… – A.) 1954-2001 – B.) 27 B.C to 41 A.D. – C.) 1492-1502 – D.) 1642-1727 – E.) 980-1021 Copyright © 2010 Ryan P. Murphy
157. 157. • Sir Isaac Newton lived… – A.) 1954-2001 – B.) 27 B.C to 41 A.D. – C.) 1492-1502 – D.) 1642-1727 – E.) 980-1021 Copyright © 2010 Ryan P. Murphy
158. 158. • This means designed to move efficiently through the water. Copyright © 2010 Ryan P. Murphy
159. 159. • This means designed to move efficiently through the water. Copyright © 2010 Ryan P. Murphy
160. 160. • This means designed to move efficiently through the water. Copyright © 2010 Ryan P. Murphy
161. 161. Which of the two below will impact with the greatest force if they have the same acceleration? Copyright © 2010 Ryan P. Murphy
162. 162. Which of the two below will impact with the greatest force if they have the same acceleration? Copyright © 2010 Ryan P. Murphy
163. 163. Which of the two below will impact with the greatest force if they have the same acceleration? Copyright © 2010 Ryan P. Murphy
164. 164. Which of the two below will impact with the greatest force if they have the same acceleration? Copyright © 2010 Ryan P. Murphy
165. 165. • Engine oil is very important to keep pistons lubricated. This reduces friction and thus heat which can expand metal and cause damage. Copyright © 2010 Ryan P. Murphy
166. 166. • Engine oil is very important to keep pistons lubricated. This reduces friction and thus heat which can expand metal and cause damage. Copyright © 2010 Ryan P. Murphy
167. 167. • Engine oil is very important to keep pistons lubricated. This reduces friction and thus heat which can expand metal and cause damage. Copyright © 2010 Ryan P. Murphy
168. 168. • Engine oil is very important to keep pistons lubricated. This reduces friction and thus heat which can expand metal and cause damage. Copyright © 2010 Ryan P. Murphy
169. 169. • Engine oil is very important to keep pistons lubricated. This reduces friction and thus heat which can expand metal and cause damage. Copyright © 2010 Ryan P. Murphy
170. 170. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
171. 171. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT LILLY 1 6 11 16 *21 2 7 12 17 *22 3 8 13 18 *23 4 9 14 19 *24 5 10 15 20 *25
172. 172. Who are these famous sister athletes? Copyright © 2010 Ryan P. Murphy
173. 173. Who are these famous sister athletes? Copyright © 2010 Ryan P. Murphy
174. 174. Who are these famous sister athletes? Serena and Venus Williams Copyright © 2010 Ryan P. Murphy
175. 175. What famous skier can be seen here?
176. 176. What famous skier can be seen here?
177. 177. Name this famous sprinter?
178. 178. Name this famous sprinter?
179. 179. Name this famous sprinter?
180. 180. Who is this famous athlete who won Gold in Berlin? Copyright © 2010 Ryan P. Murphy
181. 181. Who is this famous athlete who won Gold in Berlin? Copyright © 2010 Ryan P. Murphy
182. 182. Who is this famous athlete who won Gold in Berlin? Copyright © 2010 Ryan P. Murphy
185. 185. Who is this? Muhammad Ali (born Cassius Marcellus Clay Jr.) Copyright © 2010 Ryan P. Murphy
186. 186. LAZY BOY RUB A DUB DUB MAY THE FORCE BE WITH YOU 3rd TIMES A CHARM -BonusSPORT BILLY 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 *21 *22 *23 *24 *25