The cable at end B of the slender rod shown below is replaced with a linear actuator that commands end B to move toward the vertical wall with a constant speed vB = 0.01 ft/s. Determine the angular velocity and angular acceleration of the beam at the instant when end B begins to move. At this instant, B is a distance d = 10ft away from the vertical wall. Determine algebraic expressions for the angular velocity and angular acceleration of the beam at the instant when end B has moved a distance xB. Use the given notation and no numerical values. After determining the algebraic expression for computing a quantity, do not substitute the quantity with this expression in subsequent derivations. Use Matlab to compute the angular velocity and angular acceleration of the beam at every instant when end B has traveled another sB = 0.1 ft toward the vertical wall, until end A reaches the vertical wall.
The cable at end B of the slender rod shown below is replaced with a linear actuator that commands end B to move toward the vertical wall with a constant speed vB = 0.01 ft/s. Determine the angular velocity and angular acceleration of the beam at the instant when end B begins to move. At this instant, B is a distance d = 10ft away from the vertical wall. Determine algebraic expressions for the angular velocity and angular acceleration of the beam at the instant when end B has moved a distance xB. Use the given notation and no numerical values. After determining the algebraic expression for computing a quantity, do not substitute the quantity with this expression in subsequent derivations. Use Matlab to compute the angular velocity and angular acceleration of the beam at every instant when end B has traveled another sB = 0.1 ft toward the vertical wall, until end A reaches the vertical wall.
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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The cable at end B of the slender rod shown below is replaced with a linear actuator that commands end B to move toward the vertical wall with a constant speed vB = 0.01 ft/s.
- Determine the angular velocity and angular acceleration of the beam at the instant when end B begins to move. At this instant, B is a distance d = 10ft away from the vertical wall.
- Determine algebraic expressions for the angular velocity and angular acceleration of the beam at the instant when end B has moved a distance xB. Use the given notation and no numerical values. After determining the algebraic expression for computing a quantity, do not substitute the quantity with this expression in subsequent derivations.
- Use Matlab to compute the angular velocity and angular acceleration of the beam at every instant when end B has traveled another sB = 0.1 ft toward the vertical wall, until end A reaches the vertical wall.
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