For the offset slider crank shown in the figure below, the crank AB is rotating at constant speed of 10 rad/s CW . AB = 6 cm, BC = 10 cm, magnitude of offset c = 8 cm; (take AD=6.928 cm). • B=30°;=65° When the slider C is at its maximum position, we need to determine:

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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For the offset slider crank shown in the figure below, the crank AB is rotating at constant speed of 10
rad/s CW
•
AB = 6 cm, BC = 10 cm, magnitude of offset c = 8 cm; (take AD=6.928 cm).
B=30°;=65°
When the slider C is at its maximum position, we need to determine:
D
B
X
A
offset c
Choose...
2.5
90.95
-10.66+j90.33
⚫ The value of angular position of crank AB in degrees (measured counter
clockwise from x-axis), is =
The velocity of slider C with respect to origin A in cm/s is ||vecVe||=
The velocity of point D in cm/s (in cartesian form) is =
The magnitude of the velocity of point D in cm/s is =
288.5
69.28
0
322
1324
j35
330
-j69.28
270
-20.7-130.8j
13.5
Choose...
B
Transcribed Image Text:For the offset slider crank shown in the figure below, the crank AB is rotating at constant speed of 10 rad/s CW • AB = 6 cm, BC = 10 cm, magnitude of offset c = 8 cm; (take AD=6.928 cm). B=30°;=65° When the slider C is at its maximum position, we need to determine: D B X A offset c Choose... 2.5 90.95 -10.66+j90.33 ⚫ The value of angular position of crank AB in degrees (measured counter clockwise from x-axis), is = The velocity of slider C with respect to origin A in cm/s is ||vecVe||= The velocity of point D in cm/s (in cartesian form) is = The magnitude of the velocity of point D in cm/s is = 288.5 69.28 0 322 1324 j35 330 -j69.28 270 -20.7-130.8j 13.5 Choose... B
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