Top Banner
20

1 2012 ppt semester 1 graphing review

Jun 14, 2015

Download

Technology

ffiala
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Page 1: 1 2012 ppt semester 1 graphing review
Page 2: 1 2012 ppt semester 1 graphing review

The slides used in this video are color coded. If you are experiencing difficulty with one aspect of your understanding than another you might find this coding… useful!Slides with red backgrounds involve word problems.

Slides with tan backgrounds involve matching concepts.

Slides with olive backgrounds involve reading data tables.

Slides with green backgrounds involve graphing.

Page 3: 1 2012 ppt semester 1 graphing review
Page 4: 1 2012 ppt semester 1 graphing review
Page 5: 1 2012 ppt semester 1 graphing review

#1

#2 #3 #4

Page 6: 1 2012 ppt semester 1 graphing review

-2 m/s 0 m/s

1 m/s

0 m/s

Page 7: 1 2012 ppt semester 1 graphing review
Page 8: 1 2012 ppt semester 1 graphing review

Vy = 0 m/s

ty = 5 s

Yf = Yi + Vi t + ½ gt2Vi = 48.5

m/s

Vf2 = Vi

2 + 2g

ΔyVi = 48.5 m/s

Page 9: 1 2012 ppt semester 1 graphing review
Page 10: 1 2012 ppt semester 1 graphing review

0 m/s2

.9375

m/s2

-2.5 m

/s 2

0 m/s2

30 m

15 m

33.75 m

90 m

Page 11: 1 2012 ppt semester 1 graphing review
Page 12: 1 2012 ppt semester 1 graphing review
Page 13: 1 2012 ppt semester 1 graphing review
Page 14: 1 2012 ppt semester 1 graphing review

18 m/s

0 m/s3

Page 15: 1 2012 ppt semester 1 graphing review

18 m/s

2 m/s17.5 m/s

0 m/s3

0 m/s3

-1 m/s 3

Page 16: 1 2012 ppt semester 1 graphing review

Mass (kg) Force (N)

0 0

42 46.2

47.56

44 48.4

48.65

49.25

49.51

45.45 50

Page 17: 1 2012 ppt semester 1 graphing review

Mass (kg) Force (N)

0 0

42 46.2

43.25 47.56

44 48.4

44.23 48.65

44.77 49.25

45.01 49.51

45.45 50

Page 18: 1 2012 ppt semester 1 graphing review
Page 19: 1 2012 ppt semester 1 graphing review

Vy = 0 m/s

Vf = Vi + 2g Δttf = 3.06 s

Yf = 45.9 m

Yf = Yi + Vi t + ½ at2

a = -9.8 m/s 2

AREA = ½ Base x Height

Page 20: 1 2012 ppt semester 1 graphing review