قراءة كتاب How to Make Electrical Machines Containing Full Directions for Making Electrical Machines, Induction Coils, Dynamos, and Many Novel Toys to Be Worked by Electricity

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How to Make Electrical Machines
Containing Full Directions for Making Electrical Machines, Induction Coils, Dynamos, and Many Novel Toys to Be Worked by Electricity

How to Make Electrical Machines Containing Full Directions for Making Electrical Machines, Induction Coils, Dynamos, and Many Novel Toys to Be Worked by Electricity

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The Project Gutenberg eBook, How to Make Electrical Machines, by R. A. R. Bennett

This eBook is for the use of anyone anywhere at no cost and with almost no restrictions whatsoever. You may copy it, give it away or re-use it under the terms of the Project Gutenberg License included with this eBook or online at www.gutenberg.org

Title: How to Make Electrical Machines

Containing Full Directions for Making Electrical Machines, Induction Coils, Dynamos, and Many Novel Toys to Be Worked by Electricity

Author: R. A. R. Bennett

Release Date: December 19, 2013 [eBook #44462]

Language: English

Character set encoding: ISO-8859-1

***START OF THE PROJECT GUTENBERG EBOOK HOW TO MAKE ELECTRICAL MACHINES***

 

E-text prepared by Demian Katz, Paul Clark,
and the Online Distributed Proofreading Team
(http://www.pgdp.net)
from page images generously made available by the
Digital Library of the Falvey Memorial Library,
Villanova University
(http://digital.library.villanova.edu)

 

Note: Images of the original pages are available through the Digital Library of the Falvey Memorial Library, Villanova University. See http://digital.library.villanova.edu/Item/vudl:269146

 


 

 

 

How To Make Electrical Machines

HOW TO MAKE
Electrical Machines.


Containing full directions for making electrical
machines, induction coils, dynamos,
and many novel toys to be
worked by electricity.


By R. A. R. BENNETT.


FULLY ILLUSTRATED.

 

NEW YORK
FRANK TOUSEY, Publisher
24 Union Square


Entered according to Act of Congress, in the year 1900, by
FRANK TOUSEY,
in the Office of the Librarian of Congress at
Washington, D. C.


How to Make Electrical Machines.

How to Make a Simple Electrical Machine.

I propose to describe a method of making an electrical machine of small dimensions, but capable of performing all the experiments that are likely to be required of it.


Fig 1.—Back of Rubber, Showing Position of Hole.

For the stand of the machine take a piece of wood (deal will do, but mahogany would be preferable) 14 inches in length, 8 inches in breadth, and ⅝ inch in thickness. To the bottom of this fasten two more pieces of the same wood, 1¼ inches broad, 8 inches long, and ⅝ inch in thickness at opposite ends, so that the edges are flush with the board. This forms our stand, on which we now proceed to erect the machine. Take another piece of the same wood, 7 inches long by 2½ broad, and ⅞ inch thick and fasten it firmly by four screws at the ends to the base board at a distance of half an inch from one end of its length and in the center of its breadth.

We now take two pieces of wood 14½ inches long by 2¼ inches broad and ½ inch thick, and fasten them upright to the opposite sides in the center of the piece just fixed to the board. They must be fixed very firmly to it with several screws, as they have to bear a severe strain while the machine is worked.


P Plate. R R R R Rubbers.

Fig. 2. Diagram Showing Position of Plate and Rubbers.

If the reader can dovetail the ends into the cross board they will be held much more firmly. At the top of these pieces another piece of wood, 3¼ inches square by ⅜ inch thick, is fastened by screws into the upright pieces, so as to hold all firmly together.


Fig. 3.—Sectional Diagram of Conductor.

The framework of the machine is now complete, and we have to provide the glass plate from which the electricity is to be produced. As we cannot make this we must apply to an electrician for it. This is 10 inches in diameter. If the maker is good at, and has appliances for, working in brass on a small scale, he can make the axle himself by taking a piece of brass rod ¼ inch in diameter and 3 inches long and fastening the glass plate in the center.

This can be done by providing two circular caps of brass one and one-half inches in diameter (the side of which next the glass must be covered with cloth to prevent cracking the glass), and fastening one by solder or otherwise, on one side of the plate, the other being arranged to screw up tightly on the other side, by having the brass turned into a screw, and the center hole of the cap made with a flange to fit it. If this is beyond the reader, he must be contented with a less elaborate axle of wood instead of brass, and two wooden caps which can be firmly fastened to the axle and glued to the opposite sides of the glass plate with Prout’s elastic glue, which can be bought from any harnessmaker.

If this is used care must be taken in warming the glass not to render the glue too soft to hold it firmly when turned by the handle. To turn the axle it must be provided with a handle of wood, in the case of the wooden axle, or, in the case of the brass one, a handle is made by turning the projecting end of the axle into a screw and fitting to it a piece of flat brass three and one-half inches by one-half inch by one-eighth inch, this latter piece having another piece of brass rod three and one-half inches long fixed to the other end, on which a wooden handle is fixed (by a cap fastened at the end of the rod) so as to turn freely.


Fig. 4.—Shape of Brass Rod to collect the Electricity.

The glass plate having been thus mounted, we must turn our attention to the rubbers which generate the electricity on the plate. To make these take four pieces of wood 3 inches by 2½ inches by ⅜ inch, and on one side of them fix pieces of thick flannel (which you can get nearly ¼ inch in thickness) of the same size, and cover these over with black silk, gluing it down lightly to the wood, so as to form a thick cushion on one side of it. These four cushions have now to be fixed so as to be firmly pressed against the glass plate while it turns. This can be done by fastening them at the backs by screws to the upright pieces supporting the plate, or by gluing four small pieces of wood about ⅛ inch thick, and square in shape, to the inside of the supports. The rubbers then have four holes cut in their backs to fit these pieces of wood, on which they

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