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Cell voltage mercury cadmium

Weston normal element (cell) — Electrochemical -> standard cell showing a particularly stable and reproducible cell voltage. In the international Weston normal element a cadmium amalgam (cadmium content in the solid phase approx. 15 wt %, in the liquid phase approx. 5wt%, total average 12 to 12.5 wt%, the electrode potential depends only on the temperature, not on the mass ratio of liquid and solid phases) and a mercury electrode (half-cell) are combined according to... [Pg.706]

The nickel—zinc combination has a high cell voltage (about 1.75 V), which results in a very favorable energy density compared to that of nickel—cadmium or lead—acid. Additionally, zinc is relatively inexpensive and, in the absence of mercury additive, is environmentally benign. The nickel—zinc system was discussed as early as 1899 (4). There has been a resurgence of interest in the system for electric vehicles, but the problems of limited cycle life have not been completely overcome. [Pg.544]

Another parameter which will have a very definite bearing on the choice of battery type is cell voltage, particularly on-load voltage, which are tabulated in Table 2.1 for various types of primary battery. It can be seen that these range from 0.75V/ceJI (mercury-cadmium) to over 3 V with some of the lithium and magnesium based organic electrolyte systems. [Pg.84]

Ideally a standard cell is constmcted simply and is characterized by a high constancy of emf, a low temperature coefficient of emf, and an emf close to one volt. The Weston cell, which uses a standard cadmium sulfate electrolyte and electrodes of cadmium amalgam and a paste of mercury and mercurous sulfate, essentially meets these conditions. The voltage of the cell is 1.0183 V at 20°C. The a-c Josephson effect, which relates the frequency of a superconducting oscillator to the potential difference between two superconducting components, is used by NIST to maintain the unit of emf. The definition of the volt, however, remains as the Q/A derivation described. [Pg.20]

Calculate the voltage of a cell for the naturally occurring reaction between a liquid mercury electrode in a solution of mercury(I) nitrate and a cadmium metal electrode in a solution of cadmium nitrate. [Pg.641]

Cadmium/Mercuric Oxide Battery. The substitution of cadmium for the zinc anode (the cadmium/mercuric oxide cell) results in a lower-voltage but very stable system, with a shelf life of up to 10 years as well as performance at high and low temperatures. Because of the lower voltage, the watthour capacity of this battery is about 60% of the zinc/mercuric oxide battery capacity. Again, because of the hazardous characteristics of mercury and cadmium, the use of this battery is limited. [Pg.168]

See other pages where Cell voltage mercury cadmium is mentioned: [Pg.283]    [Pg.283]    [Pg.281]    [Pg.765]    [Pg.413]    [Pg.48]    [Pg.706]    [Pg.152]    [Pg.152]    [Pg.508]    [Pg.437]    [Pg.410]    [Pg.508]    [Pg.21]    [Pg.38]    [Pg.52]    [Pg.64]    [Pg.73]    [Pg.597]   
See also in sourсe #XX -- [ Pg.2 , Pg.4 ]



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