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Honors Physics Specials

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Presentation on theme: "Honors Physics Specials"— Presentation transcript:

1 Honors Physics Specials
Created for CVCA Physics By Dick Heckathorn 27 October 2K + 4

2 Table of Contents 03 Conc. Dev. 4.1 Inertia p11
07 Conc. Dev Friction p17 12 Conc. Dev Statics p13 16 Conc. Dev Vectors and Equilibrium 22 N.T.Q. Holding Block to Wall 26 Conc. Dev Net Force p16

3 Concept Development 4.1 Inertia Page 11

4 The rock’s tendency to do this is called…
1. An astronaut in outer space away from all forces throws a rock. What will happen to the rock? inertia. What is inertia? How is it measured? grams /kg. CD p11

5 What is the path of the rock when the string breaks?
2. The rock is being whirled at the end of a string in a clockwise rotation as seen from above. What is the path of the rock when the string breaks? A B C C D CD p11

6 3. The bus is traveling at 100 km/h.
Relative to the bus, the pencil is traveling at… 0 km/h. As the pencil drops, its horizontal velocity is 100 km/h. Where will the pencil strike the floor? Where will the pencil strike the floor if the bus is at rest? Directly below where dropped. Directly below where it is dropped. CD p11

7 Concept Development 5.1 Friction Page 17

8 Fg on crate Crate is at rest. Fe on crate CD 5.1 p17

9 Fe on crate Fg on crate FP on crate Fg on crate Crate is at rest.
CD 5.1 p17

10 Fe on crate Fg on crate Fg on crate FP on crate Crate is speeding up.
CD 5.1 p17

11 Fe on crate Fg on crate Fg on crate FP on crate
Crate is moving at constant v. Fe on crate CD 5.1 p17

12 Concept Development 4.2 Statics Page 13

13 300 300 150 300 CD p13

14 150 300 No!!! 100 150 300 No!!! CD p13

15 500 830 1000 CD p13

16 4.2 Vectors and Equilibrium Page 14
Concept Development 4.2 Vectors and Equilibrium Page 14

17 T Fs on r W Fe on r The rock hangs at rest.
The net force on the rock is… What force(s) act on it? How do they compare? Zero. W Fe on r CD p14 CD p14

18 E W Fe on r B A FA on r FB on r The rock is suspended by two strings.
There is a tension in each string. FA on r FB on r How big is each tension? W Fe on r The net force is … CD p14

19 E W Fe on r A B What is different here? The angles are different.
Find the magnitude of A and B. B W Fe on r CD p14

20 E B A The tension is greater in A or B? W Fe on r CD p14

21 A B Fe on r B A Fe on r A B Fe on r CD p14 CD p14

22 Next Time Question 4.3 Holding Book to Wall

23 No Friction Find Components Push Up with Specific Force

24 Friction Up Push Up with Less Force

25 Friction Down Push Up with Greater Force

26 Concept Development 4.3 Net Force Page 16

27 4 Fnet = 4 Fnet = 1 3 4 CD p16

28 4 4 3 Fnet = 5 Fnet = 5 3 4 2 4 2 5 3 3 Fnet = 5 Fnet = 5 5 CD p16

29 9.9 9.9 7 CD p16

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