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Zinc dry cell

C19-0125. The first battery to find widespread commercial use was the carbon-zinc dry cell, in which the cathode reaction is 2 Mn02( ) + q)+2e -> ZnMn2 04( ) In a flashlight, one of these batteries... [Pg.1426]

A standard D battery is shown both whole and cut in half to reveal the structure of the carbon-zinc dry cell. Beneath the outside paper cover of the battery is a cylinder casing made of zinc. The zinc serves as the anode and will be oxidized in the redox reaction. ... [Pg.609]

Adding the two half-reactions together gives the major redox reaction taking place in a carbon-zinc dry cell. [Pg.609]

What happens to the case of a carbon-zinc dry cell as the cell is used to produce an electric current ... [Pg.616]

Table 15.3 also shows that certain electrochemical systems, given, the same size are interchangeable, e.g. a lithium cell can replace two carbon-zinc (dry) cells or two silver oxide cells the same goes for three lead-acid cells compared to four alkaline manganese cells. In real life this is only possible to some extent, as certain specific properties of different electrochemical systems regarding their on-load characteristics, their energy content, and special constructive details resist this interchange. Two or three alternatives can always be found and should be evaluated. [Pg.391]

Figure 30.37 Effect ot temperature onthe capacity of D-sized ceils (a) carbon-zinc dry cells discharged conlinuouslythrough a resistance of 2.25 c to an end-voltage of 0.9 V (b)zinc chloride cells when discharged 4min, 1 h, 8h, 1 day with a 16h rest through a resistance of 2.25 n to a cut-off voltage of 0.9 V (Courtesy of Union Carbide)... Figure 30.37 Effect ot temperature onthe capacity of D-sized ceils (a) carbon-zinc dry cells discharged conlinuouslythrough a resistance of 2.25 c to an end-voltage of 0.9 V (b)zinc chloride cells when discharged 4min, 1 h, 8h, 1 day with a 16h rest through a resistance of 2.25 n to a cut-off voltage of 0.9 V (Courtesy of Union Carbide)...
Union Carbide produce a vast range of carbon-zinc dry cells and batteries (see Table 54.1). This range covers from single 1.5 V cells with current ranges between 0.06 and 1500 mA to a multi-cell 510 V battery with a current range of 0-2.5 mA typical applications for these various types are given in Tabic 54.1. [Pg.634]

The Ever Ready range of carbon-zinc dry cells and batteries covering 1.5-YOV supplied is given in Table 54.7. [Pg.634]

Yuasa supply two ranges of carbon-zinc dry cells, the Golden G Hi Capacity series and the Standard Diamond series. Table 54.10 gives the range available, with Union Carbide, Ever Ready (Berec) and Ray-o-Vac equivalents. [Pg.634]

Table 54.7 E er Ready (Berec) carbon-zinc dry cells and batteries... Table 54.7 E er Ready (Berec) carbon-zinc dry cells and batteries...

See other pages where Zinc dry cell is mentioned: [Pg.374]    [Pg.608]    [Pg.609]    [Pg.621]    [Pg.621]    [Pg.82]    [Pg.176]    [Pg.176]    [Pg.643]   
See also in sourсe #XX -- [ Pg.550 ]




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