Vibration is a completely non-mathematical account of a subject of vital importance to engineers that is almost invariably discussed in mathematical terms.Vibration is a completely non-mathematical account of a subject of vital importance to engineers that is almost invariably discussed in mathematical terms. The description commences with an account of the nature of vibration and its effects on the human body and metals. This is followed by chapters on free vibration, forced vibration, self-excitation, the nature and effect of shocks, and finally an elementary introduction to non-linear vibrations.Vibration is a completely non-mathematical account of a subject of vital importance to engineers that is almost invariably discussed in mathematical terms. The description commences with an account of the nature of vibration and its effects on the human body and metals. This is followed by chapters on free vibration, forced vibration, self-excitation, the nature and effect of shocks, and finally an elementary introduction to non-linear vibrations.Vibration is a completely non-mathematical account of a subject of vital importance to engineers that is almost invariably discussed in mathematical terms. The description commences with an account of the nature of vibration and its effects on the human body and metals. This is followed by chapters on free vibration, forced vibration, self-excitation, the nature and effect of shocks, and finally an elementary introduction to non-linear vibrations. Many illustrations show the effect of vibration on structures and the methods employed by engineers to suppress unwelcome oscillations. In the second edition of Vibration, Professor Bishop has added two further sections. One is the behaviour of ships in waves and the other on the effects of transient vibration. This book will be of interest to students of mechanical, aeronautical and marine engineering. Its descriptive treatment makes the principles readily accessible to anyone who wantlă,