| 1887 - 588 стор.
...absorbed by the armature and divide it by the total amount of energy generated. That lout in the armature is equal to the square of the current multiplied by the resistance, or 100 X 100 X .049 = 490 watt*. The total amount of energy generated is 100 ampere* X 1 10 voltH— 11,000... | |
| 1886 - 540 стор.
...transformation, except that due to the heating of the conductors, of which the coils are constructed, which is equal to the square of the current multiplied by the resistance. The loss of energy, which could not be accounted for, has been shown by Professor Ferraris to be less... | |
| Carl Hering - 1888 - 300 стор.
...absorbed by the armature and divide it by the total amount of energy generated. That lost in the armature is equal to the square of the current multiplied by the resistance, or 100 X 100 X .049 = 490 watts. The total amount of energy generated is 100 amperes X 110 volts = 11,000... | |
| Carl Hering - 1888 - 300 стор.
...The other law is that when the current and resistance are given, the power in volt-amperes or watts is equal to the square of the current multiplied by the resistance. That is, if, with the same current, the resistance is doubled, the power is doubled, or if, with the... | |
| Gustav A. Liebig - 1890 - 420 стор.
...<72 Et J which can be stated thus : The heat generated by the current, C, flowing during the time, t, is equal to the square of the current multiplied by the resistance, multiplied by the time, and divided by J, as before. Any one of these formulae may be used indiscriminately,... | |
| Thomas O'Conor Sloane - 1891 - 166 стор.
...CURRENT. IT has been shown experimentally by Joule that the total quantity of heat developed in a circuit is equal to the square of the current multiplied by the resistance. This is equal, by Ohm's law, to the square of the EMF divided by the resistance, which again reduces... | |
| John Robertson Dunlap, Arthur Van Vlissingen, John M. Carmody - 1892 - 988 стор.
...cent. The energy lost in line is dissipated in the form of heat, and the amount of energy so dissipated is equal to the square of the current multiplied by the resistance of the wire, this law being expressed by the equation H = C2 R, in which H represents energy ROARTNG... | |
| University of Wisconsin - 1917 - 526 стор.
...resistance R, the rate P at which electrical energy is converted into heat energy in the conductor is equal to the square of the current multiplied by the resistance. P=RP (30) 48. Resistance and Conductance: [Definitions] — The proportionality constant R in equation... | |
| 1896 - 330 стор.
...corresponds to the waste of power, also converted into heat, by the friction of water in a pipe, and is equal to the square of the current multiplied by the resistance. Formula, H = C2R. CONCLUSIONS. (A) From (4) and (6) it is evident that increasing the distance, and... | |
| International Correspondence Schools - 1897 - 556 стор.
...by a lamp is equal to the electromotive force at its terminals multiplied by the current passing, or is equal to the square of the current multiplied by the resistance (hot) of the lamp. Mechanical energy per second = . 7373 E C. (341.) The energy per second in foot-pounds... | |
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