Analytical and Graphical Linkage analysis
THE UNIVERSITY OF NEW SOUTH WALES SCHOOL OF MECHANICAL AND MANUFACTURING ENGINEERING MEEN 3391 Machine Design I Home Work 4 (Analytical and Graphical Linkage analysis) Due on: 18, 19-May-2013, at le
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THE UNIVERSITY OF NEW SOUTH WALES SCHOOL OF MECHANICAL AND MANUFACTURING ENGINEERING MEEN 3391 Machine Design I Home Work 4 (Analytical and Graphical Linkage analysis) Due on: 18, 19-May-2013, at lecture time Q.1 Figure 1 shows a four bar linkage mechanism. For each configuration shown in table 1, determine the angular displacements, angular velocities and angular accelerations of links 3 and 4 graphically and analytically . Use the Excel sheet discussed in the lecture to help you do the analytical solution. Figure1: 4 bar linkage mechanism Table 1: A number of configurations for figure 1
Q.2 Use figure 2 and the information provided in table 2 to solve this question For each configuration shown in table 2, determine the angular displacement, angular velocity and angular acceleration of link 3. Also find the displacement, velocity and acceleration of link4 Figure2: 4 crank slider mechanism Table 2: a number of configuration of figure 2
THE UNIVERSITY OF NEW SOUTH WALES SCHOOL OF MECHANICAL AND MANUFACTURING ENGINEERING MEEN 3391 Machine Design I Home Work 4 (Analytical and Graphical Linkage analysis) Due on: 18, 19-May-2013, at lecture time Q.1 Figure 1 shows a four bar linkage mechanism. For each configuration shown in table 1, determine the angular displacements, angular velocities and angular accelerations of links 3 and 4 graphically and analytically . Use the Excel sheet discussed in the lecture to help you do the analytical solution. Figure1: 4 bar linkage mechanism Table 1: A number of configurations for figure 1
Q.2 Use figure 2 and the information provided in table 2 to solve this question For each configuration shown in table 2, determine the angular displacement, angular velocity and angular acceleration of link 3. Also find the displacement, velocity and acceleration of link4 Figure2: 4 crank slider mechanism Table 2: a number of configuration of figure 2
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THE UNIVERSITY OF NEW SOUTH WALES SCHOOL OF MECHANICAL AND MANUFACTURING ENGINEERING MEEN 3391 Machine Design I Home Work 4 (Analytical and Graphical Linkage analysis) Due on: 18, 19-May-2013, at le
THE UNIVERSITY OF NEW SOUTH WALES SCHOOL OF MECHANICAL AND MANUFACTURING ENGINEERING MEEN 3391 Machine Design I Home Work 4 (Analytical and Graphical Linkage analysis) Due on: 18, 19-May-2013, at le
Document Preview:
THE UNIVERSITY OF NEW SOUTH WALES SCHOOL OF MECHANICAL AND MANUFACTURING ENGINEERING MEEN 3391 Machine Design I Home Work 4 (Analytical and Graphical Linkage analysis) Due on: 18, 19-May-2013, at lecture time Q.1 Figure 1 shows a four bar linkage mechanism. For each configuration shown in table 1, determine the angular displacements, angular velocities and angular accelerations of links 3 and 4 graphically and analytically . Use the Excel sheet discussed in the lecture to help you do the analytical solution. Figure1: 4 bar linkage mechanism Table 1: A number of configurations for figure 1
Q.2 Use figure 2 and the information provided in table 2 to solve this question For each configuration shown in table 2, determine the angular displacement, angular velocity and angular acceleration of link 3. Also find the displacement, velocity and acceleration of link4 Figure2: 4 crank slider mechanism Table 2: a number of configuration of figure 2
THE UNIVERSITY OF NEW SOUTH WALES SCHOOL OF MECHANICAL AND MANUFACTURING ENGINEERING MEEN 3391 Machine Design I Home Work 4 (Analytical and Graphical Linkage analysis) Due on: 18, 19-May-2013, at lecture time Q.1 Figure 1 shows a four bar linkage mechanism. For each configuration shown in table 1, determine the angular displacements, angular velocities and angular accelerations of links 3 and 4 graphically and analytically . Use the Excel sheet discussed in the lecture to help you do the analytical solution. Figure1: 4 bar linkage mechanism Table 1: A number of configurations for figure 1
Q.2 Use figure 2 and the information provided in table 2 to solve this question For each configuration shown in table 2, determine the angular displacement, angular velocity and angular acceleration of link 3. Also find the displacement, velocity and acceleration of link4 Figure2: 4 crank slider mechanism Table 2: a number of configuration of figure 2
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