Scientific American Supplement, No. 829, November 21, 1891 eBook

This eBook from the Gutenberg Project consists of approximately 124 pages of information about Scientific American Supplement, No. 829, November 21, 1891.

Scientific American Supplement, No. 829, November 21, 1891 eBook

This eBook from the Gutenberg Project consists of approximately 124 pages of information about Scientific American Supplement, No. 829, November 21, 1891.
gravity, centrifugal force gives us a means of realizing certain conditions that we would find in the laboratory of our magician.  The cyclostat permits us to observe what is going on in that laboratory without submitting ourselves to forces that might cause us great annoyance.  We have hitherto been content to put poor frogs therein and study upon them the effect of the central anaemia and peripheral congestion produced on their organism by the unrestrained motion of the liquids carried along by centrifugal force.  The results, it seems, have proved very curious.—­La Nature.

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MERCURY WEIGHING MACHINE.

We illustrate herewith a novel type of weighing machine.  Hitherto the weighing machines in common use have either been designed with some kind of steelyard apparatus, upon which weights could be moved to different distances from a fixed fulcrum, or springs have been so applied as to be compressed to different degrees by different weights put upon the scale pan, or table, of the machine.  In other instances more complicated mechanism is used, and various movable counterpoises are usually required in order to balance the moving parts of the machine.

[Illustration]

The type of machine which we now illustrate has been recently brought out by Mr. G.E.  Rutter, and the system has given very satisfactory results with platform weighing machines.  The engraving illustrates a form of balance which may be applied to strength testing machines, or for any work where an apparatus of the type of a Salter’s balance would be of use.  It is simple in construction, and consists of a tube A closed at the bottom and forming a reservoir for mercury.  The body which it is required to weigh is hung upon the hook B carried by the crossbar C, which is connected by rigid rods to the upper part of the tube, and by means of the internal rods D is attached to the cross head E, which works freely inside the tube A. The top part of the tube is, as will be clearly understood from the illustration, cut away to allow of the descent of the rods.  To the cross head E is attached the piston F, which may be made of wood or of a hollow metal tube closed at the end, or other suitable material.  It will be easily understood that when a weight is hung upon the hook B, the piston F is caused to descend into the mercury which rises in the annular space between the piston and the tube.  The weight of the volume of displaced mercury is proportional to the weight of the body hung upon the hook, and the buoyancy of the piston in the mercury forms the upward force which balances the downward pull of gravity.  When the apparatus is at rest the piston F descends into the mercury to such a distance as will balance the weight of the rods, hook, and piston itself.  If, now, the cross bar G, provided with a pointer H, be fixed to the rods, it should at that time register zero, upon the scale

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Scientific American Supplement, No. 829, November 21, 1891 from Project Gutenberg. Public domain.