For the non-offset slider crank shown in the figure below the crank O₂A is rotating at constant speed of 10 rad/s CCW D₂A = 70 cm, AB= 210 cm, AG, = 100 cm. When the slider B is at its maximum position, we need to find: YA @₂ G3 3 B 02 The angular velocity of AB in rad/s is = The velocity of slider B in m/s is = The angular acceleration of AB in rad/s² is = The acceleration of slider B in m/s² is = The velocity of point A in m/s (in cartesian form) is = The acceleration of point A in m/s² (in cartesian form) is = The yel 2 Choose... Choose... Choose Choose... Choose... Choose... 4
For the non-offset slider crank shown in the figure below the crank O₂A is rotating at constant speed of 10 rad/s CCW D₂A = 70 cm, AB= 210 cm, AG, = 100 cm. When the slider B is at its maximum position, we need to find: YA @₂ G3 3 B 02 The angular velocity of AB in rad/s is = The velocity of slider B in m/s is = The angular acceleration of AB in rad/s² is = The acceleration of slider B in m/s² is = The velocity of point A in m/s (in cartesian form) is = The acceleration of point A in m/s² (in cartesian form) is = The yel 2 Choose... Choose... Choose Choose... Choose... Choose... 4
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:For the non-offset slider crank shown in the figure below the crank O₂A is rotating at constant speed of 10 rad/s CCW
O₂A = 70 cm, AB= 210 cm, AG,= 100 cm.
When the slider B is at its maximum position, we need to find:
G3
B
X
The angular velocity of AB in rad/s is =
The velocity of slider B in m/s is =
The angular acceleration of AB in rad/s² is =
The acceleration of slider B in m/s² is =
The velocity of point A in m/s (in cartesian form) is =
The acceleration of point A in m/s² (in cartesian form) is =
The velocity of point 3
FO
4
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