Problem 12.092 - Two collars connected on a frame NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Two 2.6-lb collars A and B can slide without friction on a frame, consisting of the horizontal rod OE and the vertical rod CD, which is free to rotate about CD. The two collars are connected by a cord running over a pulley that is attached to the frame at O and a stop prevents collar B from moving. The frame is rotating at the rate 0 13.8 rad/s and r= 0,6 ft when the stop is removed, allowing collar A to move out along rod OE. Neglect the friction and the mass of the frame. Problem 12.092.a - Transverse component of the velocity of collar A Determine, for the position r= 1.2 ft, the transverse component of the velocity of collar A The transverse component of the velocity is ft/s. Determine, for the position r 1.2 ft, the tension in the cord and the acceleration of collar A relative to the rod O The tension in the cord is Ib. The acceleration of collar A is rus? radially inward.
Problem 12.092 - Two collars connected on a frame NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Two 2.6-lb collars A and B can slide without friction on a frame, consisting of the horizontal rod OE and the vertical rod CD, which is free to rotate about CD. The two collars are connected by a cord running over a pulley that is attached to the frame at O and a stop prevents collar B from moving. The frame is rotating at the rate 0 13.8 rad/s and r= 0,6 ft when the stop is removed, allowing collar A to move out along rod OE. Neglect the friction and the mass of the frame. Problem 12.092.a - Transverse component of the velocity of collar A Determine, for the position r= 1.2 ft, the transverse component of the velocity of collar A The transverse component of the velocity is ft/s. Determine, for the position r 1.2 ft, the tension in the cord and the acceleration of collar A relative to the rod O The tension in the cord is Ib. The acceleration of collar A is rus? radially inward.
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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Problem 12.092 - Two collars connected on a frame
NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part.
Two 2.6-lb collars A and B can slide without friction on a frame, consisting of the horizontal rod OE and
the vertical rod CD, which is free to rotate about CD. The two collars are connected by a cord running
over a pulley that is attached to the frame at O and a stop prevents collar B from moving. The frame is
rotating at the rate 0 = 13.8 rad/s and r D0.6 ft when the stop is removed, allowing collar A to move out
along rod OE. Neglect the friction and the mass of the frame.
Problem 12.092.a - Transverse component of the velocity of collar A
Determine, for the position r= 1.2 ft, the transverse component of the velocity of collar A
The transverse component of the velocity is
ft/s.
Determine, for the position r 1.2 ft, the tension in the cord and the acceleration of collar A relative to the rod OE
The tension in the cord is
lb.
rus2 radially inward.
The acceleration of collar A is](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe1dbb5d1-0831-41b4-b000-1cbf370e4738%2Fda0f4416-c6a1-4e2e-a09b-bda40363099c%2Fo30o2hgn_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Required information
Problem 12.092 - Two collars connected on a frame
NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part.
Two 2.6-lb collars A and B can slide without friction on a frame, consisting of the horizontal rod OE and
the vertical rod CD, which is free to rotate about CD. The two collars are connected by a cord running
over a pulley that is attached to the frame at O and a stop prevents collar B from moving. The frame is
rotating at the rate 0 = 13.8 rad/s and r D0.6 ft when the stop is removed, allowing collar A to move out
along rod OE. Neglect the friction and the mass of the frame.
Problem 12.092.a - Transverse component of the velocity of collar A
Determine, for the position r= 1.2 ft, the transverse component of the velocity of collar A
The transverse component of the velocity is
ft/s.
Determine, for the position r 1.2 ft, the tension in the cord and the acceleration of collar A relative to the rod OE
The tension in the cord is
lb.
rus2 radially inward.
The acceleration of collar A is
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