Practical Electricity: A Laboratory and Lecture Course for First Year Students of Electrical Engineering, Based on the International Definitions of the Electrical Units, Volume 1 |
From inside the book
Results 1-5 of 92
Page xiv
... Coil Ammeters 39. Moving Coil Ammeter with Magnetic Control CHAPTER III . DIFFERENCE OF POTENTIAL , AND RESISTANCE . 40. Difference of Potentials . PAGE 87 91 95 102 107 108 . • 110 111 118 • 124 127 130 · 135 138 144 150 152 41 ...
... Coil Ammeters 39. Moving Coil Ammeter with Magnetic Control CHAPTER III . DIFFERENCE OF POTENTIAL , AND RESISTANCE . 40. Difference of Potentials . PAGE 87 91 95 102 107 108 . • 110 111 118 • 124 127 130 · 135 138 144 150 152 41 ...
Page 10
... coil of cotton- or silk - covered wire , with a magnet m suspended so as to turn freely inside the coil , the whole arrangement forming what is called a " galvanoscope . " B is an electromagnet " consisting of a coil of cotton- or silk ...
... coil of cotton- or silk - covered wire , with a magnet m suspended so as to turn freely inside the coil , the whole arrangement forming what is called a " galvanoscope . " B is an electromagnet " consisting of a coil of cotton- or silk ...
Page 63
... Coil Ammeters - 39 . Moving Coil Ammeter with Magnetic Control . 16. Distribution of Magnetism in a Permanent Magnet . Two magnets , when placed near together , are found to exert a force on one another which is an attrac- tion or ...
... Coil Ammeters - 39 . Moving Coil Ammeter with Magnetic Control . 16. Distribution of Magnetism in a Permanent Magnet . Two magnets , when placed near together , are found to exert a force on one another which is an attrac- tion or ...
Page 69
... coil . If , instead of allowing the magnetic needle to deflect more and more as the current is increased , it is always held in the same position relatively to the coil by the application of a force , the law of the instrument becomes ...
... coil . If , instead of allowing the magnetic needle to deflect more and more as the current is increased , it is always held in the same position relatively to the coil by the application of a force , the law of the instrument becomes ...
Page 70
... coil ; and this simple law is true whatever be the size and shape of the coil , and whatever be its position relatively to the magnetic needle . But with small currents the force exerted on an ordinary magnet is too feeble to enable the ...
... coil ; and this simple law is true whatever be the size and shape of the coil , and whatever be its position relatively to the magnetic needle . But with small currents the force exerted on an ordinary magnet is too feeble to enable the ...
Contents
358 | |
364 | |
370 | |
381 | |
393 | |
408 | |
418 | |
423 | |
58 | |
63 | |
67 | |
69 | |
71 | |
79 | |
99 | |
120 | |
130 | |
132 | |
135 | |
152 | |
167 | |
172 | |
173 | |
174 | |
176 | |
179 | |
181 | |
183 | |
188 | |
191 | |
194 | |
196 | |
197 | |
198 | |
200 | |
232 | |
257 | |
267 | |
274 | |
280 | |
298 | |
304 | |
311 | |
341 | |
349 | |
428 | |
431 | |
433 | |
434 | |
438 | |
443 | |
445 | |
449 | |
457 | |
458 | |
459 | |
460 | |
462 | |
466 | |
475 | |
477 | |
482 | |
492 | |
493 | |
498 | |
502 | |
507 | |
510 | |
513 | |
516 | |
519 | |
521 | |
522 | |
525 | |
536 | |
539 | |
545 | |
549 | |
555 | |
565 | |
633 | |
Other editions - View all
Common terms and phrases
altered ammeter amperes apparatus axis battery bobbin body brass calibration cell centre charge compass needle conductor connected constant controlling force copper cubic centimetres current flowing curve deflecting force diameter direction directly proportional earth ebonite electric current electric energy electrical efficiency electrified electrometer electroscope electrostatic employed equal example exerted experiment external circuit fixed galvano given glass Hence horizontal inch inside instrument insulated international ohms iron knob length lines of force liquid magnetic field measured metal meter method nought obtained Ohm's law P.Ds parallel permanent magnet piece pipe placed plane plate pointer points pole position relatively potential pressure produced ratio relative strengths resistance right angles scale seen in Fig shown in Fig shunt sine soft-iron sulphate sulphuric acid tangent galvanometer tangent law temperature terminals tube turned uniform vessel voltmeter volts wattmeter watts weight Wheatstone's bridge wound zero zinc zinc sulphate
Popular passages
Page 591 - 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 585 - 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 587 - ... the electromotive force that, steadily applied to a conductor whose resistance is one international ohm, will produce a current of...
Page 586 - The unit of current shall be what is known as the international ampere, which is one-tenth of the unit of current of the centimeter-gramsecond system of electro-magnetic units, and is the practical equivalent of the unvarying current, which, when passed through a solution of nitrate of silver in water in accordance with standard specifications, deposits silver at the rate of one thousand one hundred and eighteen millionths of a gram per second.
Page 466 - ... 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 466 - Mix the washed mercurous sulphate with the zinc sulphate 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.