Here the body rotates with angular velocities of a different sign, which are inversely proportional to the moments of inertia I reaction does not arise. In deformation of the lateral shock absorber, the body rotates at equal angles of one sign and momentum does not arise. Thus, the rotation of the craft may be considered the movement of a flywheel with a moment of inertia l0 in the angular shock absorber with characteristic and with initial velocity the initial lateral velocity does not cause rotation. The lateral shock absorber with characteristic operates the same as for a direct central impact of mass with initial velocity defined the lateral and angular velocities of the bodies at the moment of linkage: The correlation between the parameters of the spacecraft and the shock The oscillations of the lateral shock absorber have, as a rule, a rather high frequency compared to the frequency of the main component of relative angular
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