II. If the same quantity of electricity passes through different electrolytes, the masses of the different ions deposited will be proportional to the chemical equivalents of the ions. Thus if the same current pass through acidulated water, copper sulphate,... Heat, electricity, and magnetism - Page 259by Henry Smith Carhart - 1896Full view - About this book
| Dugald Caleb Jackson, John Price Jackson - Electric power - 1902 - 510 pages
...equivalent quantities of the electrolytes are decomposed. This second law was stated by Faraday thus : — "If the same quantity of electricity passes through different electrolytes, the masses of different ions liberated at the electrodes are proportional to their chemical equivalents." 63. Chemical... | |
| Dugald Caleb Jackson, John Price Jackson - Electric power - 1902 - 506 pages
...thus : — "If the same quantity of electricity passes through different electrolytes, the masses of different ions liberated at the electrodes are proportional to their chemical equivalents." 63. Chemical Equivalents. — The phrase " chemical equivalents " used by Faraday means the relative... | |
| Richard Glazebrook - Electric power - 1904 - 462 pages
...electricity, then TO is proportional to q ; in other words, the ratio m/q is constant for that substance. LAW II. If the same quantity of electricity passes through...different electrolytes, the masses of the different ions deposited will be proportional to the chemical equivalents of the ions. Thus if the same current pass... | |
| Richard Glazebrook - Electricity - 1903 - 462 pages
...m is proportional to q ; in other words, the ratio m/q is constant for that substance. LAW II. //' the same quantity of electricity passes through different electrolytes, the masses of the different ions deposited will be proportional to the chemical equivalents of the ions. Thus if the same current pass... | |
| Henry Smith Carhart - 1904 - 614 pages
...electricity which passes through the electrolyte. This relation is expressed by the following laws : I. The mass of an electrolyte decomposed by the passage...free, 35.46 gms. of chlorine, 31.7 of copper, and 107. 9 of silver will be separated. The electrochemical equivalent of an ion is the number of grammes... | |
| H. Lewis Jones - Electrotherapeutics - 1914 - 174 pages
...electricity passes through different electrolytes, the weights of the different substances separated will be proportional to their chemical equivalents. Thus, if the same current passes through a series of electrolytes from which it separates hydrogen, oxygen, silver, and chlorine, then for every gramme... | |
| Daniel Webster Hering - 1918 - 390 pages
...as by a strong current in a short time if the quantity of electricity transferred is the same. (2) " If the same quantity of electricity passes through...different electrolytes, the masses of the different ions deposited will be proportional to the chemical equivalents of the ions." If the same current passes... | |
| Ervin Sidney Ferry - Physics - 1921 - 766 pages
...electric current is directly proportional to the quantity of electricity that passes through it. 2. If the same quantity of electricity passes through...electrodes are proportional to their chemical equivalents. The ratio of the mass of substance deposited (or transferred to other combinations), to the total quantity... | |
| Ervin Sidney Ferry - Physics - 1921 - 760 pages
...electric current is directly proportional to the quantity of electricity that passes through it. 2. If the same quantity of electricity passes through...of the different ions liberated at the electrodes arc proportional to their chemical equivalents. The ratio of the mass of substance deposited (or transferred... | |
| Betty Isabelle Bleaney, Brebis Bleaney - Electricity - 1968 - 460 pages
...electricity, then m is proportional to q ; in other words, the ratio m/q is constant for that substance. LAW II. If the same quantity of electricity passes through...different electrolytes, the masses of the different ions deposited will be proportional to the chemical equivalents of the ions. Thus if the same current pass... | |
| |