The specific heat of iron from 1.1 to 20.4°K

The atomic heat of iron has been measured between 1.1 and 20.4'K. The results are in agreement with the law C, = y T + bTS, with y = 1.20 x 1 O+ cal/mol. deg.' and b = 4.70 x lo+ cal/mol deg'. This value of b corresponds to a characteristic temperature of 462°K. The value of y is discussed from the

The specific heats of four copper-nickel alloys, containing approximately 20, 40, 60 and 80 per cent of copper respectively, and of three ironnickel alloys, containing approximately 15, 20 and 50 per cent of iron respectively, have been measured 'in the temperature ranges obtainable with liquid heli

## LETTER TO THE EDITOR The specific heat of liquid helium from 1.5°K down to 0.4°K. We measured the specific heat of liquid helium under its saturated vapour pressure from 1.5 clown to 0.4°K. The temperatures below I. I°K were obtained by adiabatic demagnetization of iron ammonium alum. In this

This paper deals with measurements concerning the atomic heat of aluminium. It appears that above the normal transition point from the superconductive to the non-superconductive state the atomic heat can be represented by Cv = D (419/T) + 0.0003484 T cal/degree mol. Discussion shows that the densit