 | William James Rolfe, Joseph Anthony Gillet - Physics - 1868 - 554 pages
...point of suspension, and must therefore tend to vibrate in different times. Hence the time of vibration of the whole pendulum will not be the same as that...particles. If these were free to move, they would vibrate in times depending upon their distances from the point of suspension ; but since they are united... | |
 | Josiah Parsons Cooke (Jr.) - Heat - 1873 - 764 pages
...tend to oscillate in different times. Hence, the time of oscillation of the whole pendulum will not bo the same as that of a simple pendulum of the same length, and the difference becomes of much importance. The theory of the simple pendulum may be extended to... | |
 | Lawrence S. Lerner - Physics - 1996 - 640 pages
...execute simple harmonic motion. What is their relative phase? Why is the period of a conical pendulum the same as that of a simple pendulum of the same length, provided the conical pendulum angle is small? Light Shadow | Light Shadow PROBLEMS GROUP A 6.1 (2)... | |
 | William James Rolfe - Physics - 1874 - 546 pages
...point of suspension, and must therefore tend to vibrate in different times. Hence the time of vibration of the whole pendulum will not be the same as that...particles. If these were free to move, they would vibrate in times depending upon their distances from the point of suspension ; but since they are united... | |
 | DS Mathur - Science - 2008 - 596 pages
...them. So that, couple C, acting on the magnet =* mH x ST. * It should be noted that the time-period is the same as that of a simple pendulum of the same length as the height of the water column, ie, of length equal to 30 cm. = mH x NS sin a [;. ST = NS sin a.... | |
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... is a compound pendulum, consisting of a heavy weight hung from a fixed point by means of a rod of wood or metal. The particles of such a pendulum must of course be at different distances from the point of suspension, and must therefore tend to vibrate... 