No, the glycaemic target in the critically ill should not be ≤6.1

Coexistence curves for {xC6H5NO2 + (1 -x)CH3(CH2)12CH3} have been determined by measurements of refractive index. The critical amplitude B and the critical exponent b have been deduced from (T, n), (T, x), and (T, f) curves, where n, x, and f are refractive index, mole fraction, and volume fraction,

Coexistence curves for xC H NO q 1 y x CH CH CH have been determined within 6 5 2 3 2 10 3 10 K of the critical temperature by measurements of refractive index n. The critical amplitude Ž . Ž . Ž . B and the critical exponent ␤ have been deduced from T, n , T, x , and T, curves, where x and are mole

The coexistence curves and the turbidity of nitrobenzene q octane have been measured and the critical amplitudes and exponents have been deduced. The values of exponents are consistent with theoretical predictions. The experimental results of coexistence curves have also been analysed to examine Weg

The coexistence curves of xC H NO H 6 5 2 ( ) ( ) } 1Ix CH CH CH and 3 2 3 3 { ( ) ( ) } x C H NO H 1 I x CH CH CH

The coexistence curves and the turbidity of nitrobenzene q undecane have been measured, and the critical amplitudes and exponents relating to the difference of density variables of two coexisting phases, the correlation length, and the osmotic compressibility have been deduced. The values of exponen

The coexistence curves and the turbidity of (nitrobenzene + tridecane) have been measured, and the critical amplitudes and exponents relating to the difference in density variables of two coexisting phases, the correlation length, and the osmotic compressibility have been calculated. The values of e