Page:Elementary Text-book of Physics (Anthony, 1897).djvu/31

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§ 17]
MECHANICS OF MASSES.
17

point . Draw the lines and in the directions of the tangents at and , equal to the velocities and of the point at and respectively. The line QB is the change in the velocity of the point during the time in which it traverses the distance . Draw the line perpendicular to . The angle , being the angle between the tangents at and , equals the angle . In the limit, as vanishes, and differ by the infinitesimal , and equals . The line represents the change in the numerical magnitude of the velocity during the time , and the rate of that change, which takes place along the tangent to the path, is given by

(5)

The line represents the change in velocity during the same time along the normal to the path. The acceleration along that normal is therefore . Now under the conditions assumed in these statements , and , the velocity of the point. Hence , and the acceleration along the normal to the path is

(6)

If the path be a straight line, the normal acceleration vanishes, and the whole acceleration is given by the limit of the ratio If the path be a circle, and if the point move in it uniformly, the whole acceleration is given by .

The unit of acceleration is that of a point, the velocity of which changes at a uniform rate by one unit of velocity in one second.

The dimensions of acceleration are . Acceleration is completely described when its magnitude and