Difference between revisions of "Forest UCM RBM"
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Let | Let | ||
| − | :<math>m_k =</math> the kth mass of a particle located at the distance <math>\vec {R}_k</math>, from the origin, and moving with the velocity <math>\vec{v}_k</math> and angular velocity <math>\omega</math> | + | :<math>m_k =</math> the kth mass of a particle located at the distance <math>\vec {R}_k</math>, from the origin, and moving with the velocity <math>\vec{v}_k</math> and angular velocity <math>\omega</math>. \psi represents the angle the point mass <math>m_k</math> makes with the line OA used as a reference point for the rotation angle <math>\theta</math> of the rigid body. |
The particle moves about the rotation axis in a circle of radius | The particle moves about the rotation axis in a circle of radius | ||
Revision as of 14:53, 18 November 2014
Rigid Body Motion
Rigid Body
- Rigidy Body
- A Rigid Body is a system involving a large number of point masses, called particles, whose distances between pairs of point particles remains constant even when the body is in motion or being acted upon by external force.
- Forces of Constraint
- The internal forces that maintain the constant distances between the different pairs of point masses.
Consider a rigid body that rotates about a fixed z-axis. The rotational position of the body is specified by an angle that is drawn between the line OA on the body and the x-axis.
INSERT PICTURE HERE
Let
- the kth mass of a particle located at the distance , from the origin, and moving with the velocity and angular velocity . \psi represents the angle the point mass makes with the line OA used as a reference point for the rotation angle of the rigid body.
The particle moves about the rotation axis in a circle of radius