| Daniel Kinnear Clark - Engineering - 1884 - 1024 pages
...matter of the body to communicate to it its velocity, the same angular velocity would be generated. : distance of the centre of gyration from the axis of motion is called : radius of gyration ; and the moment of inertia is equal to the product " the square of the... | |
| Stephen Roper - Mechanical engineering - 1888 - 702 pages
...in the body or system itself. The distance of the centre of gyration from the point of suspension or the axis of motion, is a mean proportional between the distances of the centres of oscillation and gravity from the same point or axle. Horse-power, or Power of a Horse. — The power... | |
| Stephen Roper - Fire engines - 1889 - 422 pages
...in the body or system itself. The distance of the centre of gyration from the point of suspension or the axis of motion, is a mean proportional between the distances of the centres of oscillation and gravity from the same point or axle. Horse-power, or Power of a Horse. — The power... | |
| Daniel Kinnear Clark - Engineering - 1889 - 1030 pages
...of the body to communicate to it its angular velocity, the same angular velocity would be generated. The distance of the centre of gyration from the axis of motion is called the radius of gyration ; and the moment of inertia is equal to the product of the square of... | |
| Electronic journals - 1886 - 554 pages
...of one of the mighty agents of progress, except a studious following in * k, the radius of gyration, is a mean proportional between the distances of the centres of gravity and oscillation from the axis, hence *» = 52 X 62^, but k is also the length whose square is the mean... | |
| Naval art and science - 1890 - 576 pages
...revolving about the diameter has its centre of gyration removed from the centre by one half of the radius. The distance of the centre of gyration from the axis of motion is always a mean proportional between that of the centres of gravity and oscillation. The magnetic moment... | |
| |