The car A has a forward speed of 21 km/h and is accelerating at 3.4 m/s². Determine the velocity and acceleration of the car relative to observer B, who rides in a nonrotating chair on the Ferris wheel. The angular rate Q = 4.0 rev/min of the Ferris wheel is constant. R = 8.6 m Answers: VA/B( i aA/B = ( i 22=4.0 rev/min B 36 i+ i i+i j) m/s j) m/s²
The car A has a forward speed of 21 km/h and is accelerating at 3.4 m/s². Determine the velocity and acceleration of the car relative to observer B, who rides in a nonrotating chair on the Ferris wheel. The angular rate Q = 4.0 rev/min of the Ferris wheel is constant. R = 8.6 m Answers: VA/B( i aA/B = ( i 22=4.0 rev/min B 36 i+ i i+i j) m/s j) m/s²
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![The car A has a forward speed of 21 km/h and is accelerating at 3.4 m/s². Determine the velocity and acceleration of the car relative to
observer B, who rides in a nonrotating chair on the Ferris wheel. The angular rate Q = 4.0 rev/min of the Ferris wheel is constant.
R = 8.6 m
Answers:
VA/B( i
aA/B = (
i
22=4.0 rev/min
B
200
36
i+ i
i+i
j) m/s
j) m/s²](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd4d8068d-e37e-4cea-a62a-bd73fcef9d4e%2F9c524336-2131-46be-9024-20c2d924dea7%2Fyh9kju_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The car A has a forward speed of 21 km/h and is accelerating at 3.4 m/s². Determine the velocity and acceleration of the car relative to
observer B, who rides in a nonrotating chair on the Ferris wheel. The angular rate Q = 4.0 rev/min of the Ferris wheel is constant.
R = 8.6 m
Answers:
VA/B( i
aA/B = (
i
22=4.0 rev/min
B
200
36
i+ i
i+i
j) m/s
j) m/s²
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