A solution is prepared by dissolving iodine, I2, in carbon tetrachloride, CCl4, at 25 °C. What is the mole fractions of the solute for a solute of molality 0.100 mol kg−1? (a) Mole fraction of solute = ________ 2 sig. fig. A solution is prepared by dissolving iodine, I2, in carbon tetrachloride , CCl4, at 25 °C. What is the mole fractions of the solvent for a solute of molality 0.100 mol kg−1? (b) Mole fraction of solvent = _____________. 3 sig. fig. A solution is prepared by dissolving iodine, I2, in carbon tetrachloride , CCl4, at 25 °C. For a solute of molality 0.100 mol kg−1, calculate the change in the chemical potential of the solvent caused by the solute. (c) change of chemical potential (solvent) = __________ J/mol. 3 sig. fig. R = 8.3145 J/Kmol.
A solution is prepared by dissolving iodine, I2, in carbon tetrachloride, CCl4, at 25 °C. What is the mole fractions of the solute for a solute of molality 0.100 mol kg−1?
(a) Mole fraction of solute = ________ 2 sig. fig.
A solution is prepared by dissolving iodine, I2, in carbon tetrachloride , CCl4, at 25 °C. What is the mole fractions of the solvent for a solute of molality 0.100 mol kg−1?
(b) Mole fraction of solvent = _____________. 3 sig. fig.
A solution is prepared by dissolving iodine, I2, in carbon tetrachloride , CCl4, at 25 °C. For a solute of molality 0.100 mol kg−1, calculate the change in the chemical potential of the solvent caused by the solute.
(c) change of chemical potential (solvent) = __________ J/mol. 3 sig. fig.
R = 8.3145 J/Kmol.
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