Q1 (5 points): Determine the angular velocity, of the sprinkler. (Hint: Use polar coordinates). This is a rigid body problem. Ws= We ㅠ 2d 60 W₁ == Q2 (5 points): Determine the magnitude of the acceleration of B, |B|, if B is moving with a constant speed, VB =20ft/s of the sprinkler. BB= = 23.32 ft 52 Since acceleration Constant speed is REF: Fon 216 +1 commut angular acceleration is constant. The sprinkler shown consists of a pipe AB mounted on a hollow vertical shaft. The water comes in the horizontal pipe at O and goes out the nozzles at A and B, causing the pipe to rotate. Letting d = 7 in., Assume that the sprinkler does not roll on the ground. ح B wwwwwww
Q1 (5 points): Determine the angular velocity, of the sprinkler. (Hint: Use polar coordinates). This is a rigid body problem. Ws= We ㅠ 2d 60 W₁ == Q2 (5 points): Determine the magnitude of the acceleration of B, |B|, if B is moving with a constant speed, VB =20ft/s of the sprinkler. BB= = 23.32 ft 52 Since acceleration Constant speed is REF: Fon 216 +1 commut angular acceleration is constant. The sprinkler shown consists of a pipe AB mounted on a hollow vertical shaft. The water comes in the horizontal pipe at O and goes out the nozzles at A and B, causing the pipe to rotate. Letting d = 7 in., Assume that the sprinkler does not roll on the ground. ح B wwwwwww
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
Related questions
Question
(For review)
![Q1 (5 points): Determine the angular velocity, of the sprinkler. (Hint: Use polar coordinates).
This is a rigid body problem.
Ws=
We
ㅠ
2d
60
W₁ ==
Q2 (5 points): Determine the magnitude of the acceleration of B, |B|, if B is moving with a constant speed,
VB =20ft/s of the sprinkler.
BB=
= 23.32 ft
52
Since
acceleration
Constant speed
is REF: Fon
216
+1
commut
angular acceleration is constant.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fece3d40f-e8f0-464a-aada-c18e494e1994%2Fcc042466-0c82-44b5-88fd-bc950e5e2c93%2F4k5ypaf_processed.png&w=3840&q=75)
Transcribed Image Text:Q1 (5 points): Determine the angular velocity, of the sprinkler. (Hint: Use polar coordinates).
This is a rigid body problem.
Ws=
We
ㅠ
2d
60
W₁ ==
Q2 (5 points): Determine the magnitude of the acceleration of B, |B|, if B is moving with a constant speed,
VB =20ft/s of the sprinkler.
BB=
= 23.32 ft
52
Since
acceleration
Constant speed
is REF: Fon
216
+1
commut
angular acceleration is constant.
![The sprinkler shown consists of a pipe AB mounted on a hollow vertical shaft. The water comes in the
horizontal pipe at O and goes out the nozzles at A and B, causing the pipe to rotate. Letting d = 7 in.,
Assume that the sprinkler does not roll on the ground.
ح
B
wwwwwww](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fece3d40f-e8f0-464a-aada-c18e494e1994%2Fcc042466-0c82-44b5-88fd-bc950e5e2c93%2Fov6dkg_processed.png&w=3840&q=75)
Transcribed Image Text:The sprinkler shown consists of a pipe AB mounted on a hollow vertical shaft. The water comes in the
horizontal pipe at O and goes out the nozzles at A and B, causing the pipe to rotate. Letting d = 7 in.,
Assume that the sprinkler does not roll on the ground.
ح
B
wwwwwww
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