Q2. Maximum value of linear velocity of point "G" located on link AB will be...(a) 0.31 m/sec(b) 0.3 m/sec(c) 0.6 m/sec(d) 0.61 m/sec(e) none of the options Q1. For the mechanism shown in figure, at this particular instant the vertical shaft is rotating along z-axis with aconstant angular velocity (@ = 2 rad/sec).Note: When force F is applied on sleeve "J", it can slide up and down on vertical shaft (while sleeve "I " isfixed) and 0 can vary between 0° to 90°Select five right answers.0.3 m0.3 ma. All links (GH, EF, AB and CD) will have same angular velocityb. All links (GH, EF, AB and CD) will have different angular velocityE0.3 m0.3 mGc. Tangential Acceleration (a) of link AB will not be zerod. Tangential Acceleration (a) of link CD will be zeroAe. Angular Acceleration (a) of link AB will not be zero0.1 m0.1 mf. Angular Acceleration (a) of link CD will be zerog. All points on link CD will have same linear velocity, when 0 = 0°h. All points on link AB will have same linear velocity, when 0 = 90°Fi.Point B on link AB will have maximum linear velocity, when 0 = 90°j. Point D on link CD will have maximum linear velocity, when 0 = 0°

Q1: Consider the given assembly.

Q1. For the mechanism shown in figure, at this particular instant the vertical shaft is rotating along z-axis with a constant angular velocity (o = 2 rad/sec). Note: When force F is applied on sleeve "J", it can slide up and down on vertical shaft (while sleeve "I " is fixed) and 0 can vary between 0° to 90° Select five right answers. 0.3 m 0.3 m B а. All links (GH, EF, AB and CD) will have same angular velocity D b. All links (GH, EF, AB and CD) will have different angular velocity E 0.3 m 0.3 m G c. Tangential Acceleration (at) of link AB will not be zero 10 d. Tangential Acceleration (a) of link CD will be zero C [A e. Angular Acceleration (a) of link AB will not be zero 0.1 m 0.1 m f. Angular Acceleration (a) of link CD will be zero g. All points on link CD will have same linear velocity, when 0 = 0° h. All points on link AB will have same linear velocity, when 0 = 90° i. Point B on link AB will have maximum linear velocity, when 0 = 90° j. Point D on link CD will have maximum linear velocity, when 0 = 0°

Q1. For the mechanism shown in figure, at this particular instant the vertical shaft is rotating along z-axis with a constant angular velocity (o = 2 rad/sec). Note: When force F is applied on sleeve "J", it can slide up and down on vertical shaft (while sleeve "I " is fixed) and 0 can vary between 0° to 90° Select five right answers. 0.3 m 0.3 m B а. All links (GH, EF, AB and CD) will have same angular velocity D b. All links (GH, EF, AB and CD) will have different angular velocity E 0.3 m 0.3 m G c. Tangential Acceleration (at) of link AB will not be zero 10 d. Tangential Acceleration (a) of link CD will be zero C [A e. Angular Acceleration (a) of link AB will not be zero 0.1 m 0.1 m f. Angular Acceleration (a) of link CD will be zero g. All points on link CD will have same linear velocity, when 0 = 0° h. All points on link AB will have same linear velocity, when 0 = 90° i. Point B on link AB will have maximum linear velocity, when 0 = 90° j. Point D on link CD will have maximum linear velocity, when 0 = 0°

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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