Chapter 16
3-Dimensional Kinetics of a Rigid Body
The calculation of the moment of inertia for a differential element within a rigid body involves multiplying the element's mass by the square of…
The concept of the inertia tensor is employed to depict the mass distribution and rotational inertia of a solid or rigid object. This tensor is…
Imagine a rigid body with a mass denoted as 'm', which has its center of mass at point G and is rotating around an inertial reference frame.…
The concept of angular momentum for a solid structure is illustrated as the cumulative result of the cross-product of the position vector of the mass…
Imagine a solid object involved in a general planar movement, with its center of mass pinpointed at a spot labeled G. The object's kinetic energy…
The movement of a rigid object can be understood through the equations that explain both translational and rotational motion about the center of mass…
Kinematic analysis is a powerful method for objective assessment of upper extremity movements in a three-dimensional (3D) space. Three-dimensional…
Experimental methods are presented for measuring the rotational and translational motion of anisotropic particles in turbulent fluid flows. 3D…
Magnetic Tweezers for the Measurement of Twist and Torque
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Single-molecule techniques make it possible to investigate the behavior of individual biological molecules in solution in real time. These techniques…