T1=10 Nm step input torque is applied to the mechanical system in the figure below, whose transformation ratio is given as n=1:10, at the time of t=0. Find the velocity and moment of the first and second sides. (System Parameters: B1=0.02 Nm/rad/s, B2=0.5 Nm/ rad/s, J1=0.2 kgm^2, J2=5 kgm^2)
T1=10 Nm step input torque is applied to the mechanical system in the figure below, whose transformation ratio is given as n=1:10, at the time of t=0. Find the velocity and moment of the first and second sides. (System Parameters: B1=0.02 Nm/rad/s, B2=0.5 Nm/ rad/s, J1=0.2 kgm^2, J2=5 kgm^2)
T1=10 Nm step input torque is applied to the mechanical system in the figure below, whose transformation ratio is given as n=1:10, at the time of t=0. Find the velocity and moment of the first and second sides. (System Parameters: B1=0.02 Nm/rad/s, B2=0.5 Nm/ rad/s, J1=0.2 kgm^2, J2=5 kgm^2)
T1=10 Nm step input torque is applied to the mechanical system in the figure below, whose transformation ratio is given as n=1:10, at the time of t=0. Find the velocity and moment of the first and second sides. (System Parameters: B1=0.02 Nm/rad/s, B2=0.5 Nm/ rad/s, J1=0.2 kgm^2, J2=5 kgm^2)
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Branch of science that deals with the stationary and moving bodies under the influence of forces.
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