A long and slender rod of length 1 – 0.9 m and mass m - 17 kg is in each end fixed in traces by massless wheels. At the instance of time considered, the rod has spatial orientation e = 30 deg while the lower end (denoted A). moves upwards with constant velocity va- In the following (Q2.1) va =3.2 Q2.2: Categorize the motion of rod AB, select the correct answer in the table below 1. Rotation Translation 2. 3. General motion Q2.3: Determine the direction of the relative velocity of point B relative to A, va/a Select the correct answer in table 2.1 1. 2. 3. 4. 5. 6. 7. Table 2.1 Q2.4: Apply the principle of relative motion to calculate the magnitude of the angular velocity of rod AB in rad/s - select the correct value în table 2.2 Q2.5: Apply the principle of relative motion to calculate the magnitude of the velocity of end B in m/s - select the correct value in table 2.2 1. 5.24 2. 5.58 3. 6.27 4. 6.72 5. 7.16 6. 7.29 7. 8.04 8. 8.66 10. 11.11 9. 9.36 Table 2.2 - make sure to round off properly Q2.6: Determine the direction of the relative normal acceleration of point B relative to A, (ag/a).- Select the correct answer in table 2.1 (above) Q2.7: Determine the direction of the relative tangential acceleration of point B relative to A (ag/a), Select the correct answer in table 2.1 (above)

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A long and slender rod of length I = 0.9 m and mass m = 17 kg is in each end fixed in traces by massless wheels. At the instance of time B considered, the rod has spatial orientation 0 = 30 deg while the lower end (denoted A), moves upwards with constant velocity va. In the following (Q2.1) va =3.2 A Q2.2: Categorize the motion of rod AB, select the correct answer in the table below Translation 2. 1. Rotation 3. General motion Q2.3: Determine the direction of the relative velocity of point B relative to A, Va/A Select the correct answer in table 2.1 1. 2. 3. 4. 5. 6. 7. 8. Table 2.1 Q2.4: Apply the principle of relative motion to calculate the magnitude of the angular velocity of rod AB in rad/s - select the correct value in table 2.2 Q2.5: Apply the principle of relative motion to calculate the magnitude of the velocity of end B in m/s - select the correct value in table 2.2 1. 5.24 3. 6.27 2. 5.58 4. 6.72 5. 7.16 6. 7.29 7. 8.04 8. 8.66 10. 11.11 9. 9.36 Table 2.2 - make sure to round off properly Q2.6: Determine the direction of the relative normal acceleration of point B relative to A, (aB/a),: Select the correct answer in table 2.1 (above) Q2.7: Determine the direction of the relative tangential acceleration of point B relative to A (ag/A), Select the correct answer in table 2.1 (above)