A rod of mass M and length L is pivoted at point O as shown below. At the end of each rod is a concentrated mass m. The concentrated mass or the right is connected via a spring to another point mass...

THE MOTION IS ON THE HORIZONTAL PLANE (NO GRAVITYA rod of mass M and length L is pivoted at point O as shown below. At the end<br>of each rod is a concentrated mass m. The concentrated mass or the right is connected via a<br>spring to another point mass 2m. Derive the equations of motion ur ng Lagrange's equations.<br>В<br>m<br>2L/3<br>M-<br>k<br>L/31<br>2m<br>A<br>m<br>

Extracted text: A rod of mass M and length L is pivoted at point O as shown below. At the end of each rod is a concentrated mass m. The concentrated mass or the right is connected via a spring to another point mass 2m. Derive the equations of motion ur ng Lagrange's equations. В m 2L/3 M- k L/31 2m A m

Jun 11, 2022
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