...at the same distance from the vertex. From this it follows that the development of the base will be the arc of a circle of radius equal to the length of an element. To find the length of this arc which is equal to the distance around the base, divide the plan of the...

...at the same distance from the vertex. From this it follows that the development of the base will be the arc of a circle of radius equal to the length of an element. To find the length of this arc which is equal to the distance around the base, divide the plan of the...

...afforded by the present experiment. In the case of a simple pendulum the motion of the ' bob ' is along the arc of a circle of radius equal to the length of the string, the motion being purely translational, ie there is no rotation of the bob about its Centre...

...element of the cone coincide with VF1. The length of this element is taken from the elevation, Fig. 146, of either contour element. All of the elements of...1 .... 13 along an arc drawn with radius equal to I'l; join 1 and 13 with I', and the resulting sector is the development of the cone from vertex to...

...element of the cone coincide with VF1. The length of this element is taken from the elevation, Fig. 146, of either contour element. All of the elements of...1 .... 13 along an arc drawn with radius equal to Fl ; join 1 and 13 with V, and the resulting sector is the development of the cone from vertex to base....

...the pointer is used as a pen. The displacements proportional to the quantity measured are then along the arc of a circle of radius equal to the length of the pointer. The chart movement (proportional to time) is linear in the band-type but angular in the...