Chemical News and Journal of Industrial Science, Tomy 103-104Chemical news office., 1911 |
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Strona 2
... temperature due to radiation alone . F = rate of rise in temperature due to friction . M = temperature of the calorimeter . M ' - temperature of the surrounding medium . t = difference between the temperature of the calorimeter and that ...
... temperature due to radiation alone . F = rate of rise in temperature due to friction . M = temperature of the calorimeter . M ' - temperature of the surrounding medium . t = difference between the temperature of the calorimeter and that ...
Strona 3
... temperature during the final period . = mean temperature of the calorimeter during the initial period . e ' = mean temperature of the calorimeter during the final period . 01 , 02 ... On @o = temperature at the end of the first , second ...
... temperature during the final period . = mean temperature of the calorimeter during the initial period . e ' = mean temperature of the calorimeter during the final period . 01 , 02 ... On @o = temperature at the end of the first , second ...
Strona 11
... temperature benzene and its derivatives exhibit an ultra - violet fluor- escence . When the temperature is lowered to 135 ° the solutions remain liquid but become more viscous , and the fluorescence extends towards the red , so that it ...
... temperature benzene and its derivatives exhibit an ultra - violet fluor- escence . When the temperature is lowered to 135 ° the solutions remain liquid but become more viscous , and the fluorescence extends towards the red , so that it ...
Strona 21
... temperature of the water supply approxi- mates closely to that of the surroundings . If this is not the case , it will be found that when water is allowed to A final selection can be made either by disregarding all circulate through the ...
... temperature of the water supply approxi- mates closely to that of the surroundings . If this is not the case , it will be found that when water is allowed to A final selection can be made either by disregarding all circulate through the ...
Strona 25
... TEMPERATURE SCALE BETWEEN 100 ° AND 500 ° C. * By C. W. WAIDNER and G. K. BURGESS . Ar the present time the standard scale of temperatures in the interval o ° to 100 ° C. is that defined in a resolution of the International Committee on ...
... TEMPERATURE SCALE BETWEEN 100 ° AND 500 ° C. * By C. W. WAIDNER and G. K. BURGESS . Ar the present time the standard scale of temperatures in the interval o ° to 100 ° C. is that defined in a resolution of the International Committee on ...
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