The Electrical EngineerBiggs & Company, 1893 - Electrical engineering |
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Page 472
... Railway , 385 Bury , Electrical Engineer required , 190 Bury Electric Light Committee , 477 ' Bus - Lighting , 84 , 86 , 132 , 133 C. Cable between Australia and America , 215 Cable Communication , 601 Cables , Wires , and Batteries ...
... Railway , 385 Bury , Electrical Engineer required , 190 Bury Electric Light Committee , 477 ' Bus - Lighting , 84 , 86 , 132 , 133 C. Cable between Australia and America , 215 Cable Communication , 601 Cables , Wires , and Batteries ...
Page 473
... Railway Carriages , 38 , 121 City and South London Railway Company , 91 , 97 , 114 , 117 , 573 City Telephone Tubes , 338 , 409 , 554 , 579 Civil Engineers , Institution of , 385 , 433 , 577 Clarke's Tables , 601 Club - Cafe , A , 385 ...
... Railway Carriages , 38 , 121 City and South London Railway Company , 91 , 97 , 114 , 117 , 573 City Telephone Tubes , 338 , 409 , 554 , 579 Civil Engineers , Institution of , 385 , 433 , 577 Clarke's Tables , 601 Club - Cafe , A , 385 ...
Page 476
... Railway Project , 693 Large Gas - engine , 241 Large Mine Pump , 508 Large Water - Power Scheme , 604 Large Wilmshurst Machine , 433 Laundry Appliances , 241 Laundry Exhibition , 265 Laying Mains in France , 433 Lea Bridge Tramways ...
... Railway Project , 693 Large Gas - engine , 241 Large Mine Pump , 508 Large Water - Power Scheme , 604 Large Wilmshurst Machine , 433 Laundry Appliances , 241 Laundry Exhibition , 265 Laying Mains in France , 433 Lea Bridge Tramways ...
Page 477
... Railway Fogging , 265 Railway Rates , 434 Rapid Transit , 484 Rashleigh Phipps and Co. , 23 Rawmarsh Local Board , 310 Reading Tramways , 94 Recent Solar Discoveries , 457 Rechniewski , W. C. , Means of Diminishing Sparking in ...
... Railway Fogging , 265 Railway Rates , 434 Rapid Transit , 484 Rashleigh Phipps and Co. , 23 Rawmarsh Local Board , 310 Reading Tramways , 94 Recent Solar Discoveries , 457 Rechniewski , W. C. , Means of Diminishing Sparking in ...
Page 478
... Railway Bill , 93 Water Power at Ayr , 577 Water Power for Central Stations , 100 Water Power in India , 314 Water Power at St. - Etienne , 242 Water Power in Switzerland , 25 , 601 Water Power at Tampa ( Fla ) , 171 Water Power at ...
... Railway Bill , 93 Water Power at Ayr , 577 Water Power for Central Stations , 100 Water Power in India , 314 Water Power at St. - Etienne , 242 Water Power in Switzerland , 25 , 601 Water Power at Tampa ( Fla ) , 171 Water Power at ...
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Common terms and phrases
adopted alternating current amount amperes annum apparatus arc lamps armature arranged batteries Board of Trade boilers Brush Electrical brushes cable capital carbon carried cent central station Chairman Chancery-lane charge circuit conductors connected considerable construction copper Corporation cost Councillor curve Directors distance dividend dynamos effect efficiency electric light Electric Light Company Electric Supply electrical engineer electrolytic energy experiments Fleet Street give Glasgow heat Improvements incandescent lamps increase induction installation instrument insulated iron load London Lord Kelvin machine magnetic mains matter means measure mechanical meeting ment Messrs metal meter miles motors municipal National Telephone Company obtained ordinary patents plant plate position present pressure Prof proposed provisional order railway resistance series coils shares shunt Siemens square steam street Telegraph tion Town Council traction tramway transformer tricity tube unit voltage voltmeter volts wattmeter watts wire
Popular passages
Page 255 - Engineer, being the art of directing the great sources of power in Nature for the use and convenience of man...
Page 228 - As a unit of quantity, the international coulomb, which is the quantity of electricity transferred by a current of one international ampere in one second. As a unit of capacity, the international farad, which is the capacity of a condenser charged to a potential of one international volt by one international coulomb of electricity.
Page 304 - Ampere, which is one-tenth of the unit of current of the CGS system of electromagnetic units and which is represented sufficiently well for practical use by the unvarying current which, when passed through a solution of nitrate of silver in water, in accordance with a certain specification, deposits silver at the rate of 0.001118 of a gramme per second.
Page 304 - As a unit of resistance, the international ohm, which is based upon the ohm equal to 10" units of resistance of the CGS system of electromagnetic units, and is represented by the resistance offered to an unvarying electric current by a column of mercury at the temperature of melting ice, 14.4521 grams in mass, of a constant cross-sectional area and of the length of 106.3 centimetres.
Page 305 - Then insert the cork and zinc rod, passing the glass tube through the hole prepared for it. Push the cork gently down until its lower surface is nearly in contact with the liquid. The air will thus be nearly all expelled, and the cell should be left in this condition for at least twenty-four hours before sealing, which should be done as follows.
Page 304 - This is supported horizontally in the liquid near the top of the solution by a platinum wire passed through holes in the plate at opposite corners. To prevent the disintegrated silver which is formed on the anode from falling on to the kathode, the anode should be wrapped round with pure filter paper, secured at the back with sealing wax.
Page 228 - As a unit of work, the joule, which is equal to 107 units of work in the CGS system, and which is represented sufficiently well for practical use by the energy expended in one second by an international ampere in an international ohm.
Page 305 - ... carefully removing any loose pieces of the zinc. Just before making up the cell dip the zinc into dilute sulphuric acid, wash with distilled water, and dry with a clean cloth or filter paper.
Page 305 - ... solution, adding sufficient crystals of zinc sulphate from the stock bottle to ensure saturation, and a small quantity of pure mercury. Shake these up well together to form a paste of the consistence of cream. Heat the paste, but not above a temperature of 30° C.
Page 253 - ... in a similar form in his own works ; and this by no less a mathematician than LEONARD EULER, whose system of light, as far as it is worthy of notice, either was, or might have been, wholly borrowed from NEWTON, HOOKE, HUYGENS, and MALEBRANCHE.