A kinematic diagram of a slider-crank mechanism is shown in figure P6.17. At the instant shown, vA = 20 ft/s and vB = 21 ft/s. Determine the angular velocity of link 2. Draw a velocity vector polygon and analytically determine the relative velocity of point A with respect to point B.
A kinematic diagram of a slider-crank mechanism is shown in figure P6.17. At the instant shown, vA = 20 ft/s and vB = 21 ft/s. Determine the angular velocity of link 2. Draw a velocity vector polygon and analytically determine the relative velocity of point A with respect to point B.
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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A kinematic diagram of a slider-crank mechanism is shown in figure P6.17. At the instant
shown, vA = 20 ft/s and vB = 21 ft/s. Determine the angular velocity of link 2. Draw a
velocityvector polygon and analytically determine the relative velocity of point A with
respect to point B.
shown, vA = 20 ft/s and vB = 21 ft/s. Determine the angular velocity of link 2. Draw a
velocity
respect to point B.
Transcribed Image Text:The image depicts a mechanical system involving a pulley and a belt connecting points A and B.
- **Pulley System Diagram:**
- Point A is connected to a pulley, and a shaft extends horizontally for 9 inches.
- A force or velocity \( v_A \) is acting at point A, directed at a 45° angle downward.
- A belt extends from point A to point B which is 26 inches away.
- Point B is vertically aligned with the support structure, and a velocity \( v_B \) is acting vertically at point B.
- A horizontal distance of 5 inches is marked along the path from the initial point near point A.
This system appears to be part of a larger mechanical setup, potentially illustrating principles of mechanics involving tension, velocity, or other dynamic forces.
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