Название: The Practice of Engineering Dynamics
Автор: Ronald J. Anderson
Издательство: John Wiley & Sons Limited
Жанр: Физика
isbn: 9781119053699
isbn:
Figure 1.3 A rigid rod rotating about a fixed point.
By definition, the velocity of
In order to differentiate the position vector, we must have an expression for it and this means we must first choose a coordinate system3 in which to work. For a start, we can choose a right handed coordinate system fixed in the ground. The set of unit vectors
An expression for the position of
(1.7)
We apply Equation 1.6 to
(1.8)
In this coordinate system, it is clear that there is a rate of change of magnitude of the vector only and the velocity of point
Another derivation of the velocity of
(1.10)
Note that the length of this vector is a constant so that the total derivative must come from its rate of change of direction. The angular velocity of the coordinate system is equal to the angular velocity of the rod since the coordinate system is fixed in the rod. That is,
(1.11)
and the velocity of
(1.12)
Since
We now have two expressions for
Keep in mind that sequential sets of unit vectors are related to each other by simple plane rotations. Also note that the unit vectors are not related to any point in the system – they simply express directions. Given these two facts, we can relate the two sets of unit vectors we have been using by noting that
or
The first transformation (Equation 1.14) can be used with Equation 1.13 to show that,
(1.16)
This is the same result as that shown in Equation 1.9.
Similarly, the second transformation (Equation 1.15) can be used with Equation 1.9 to show that,
(1.17)
Expanding this СКАЧАТЬ