298.15 K时二氧六烷-水体系中甘氨酸去质子化过程中10%、20%和30%二氧六烷的自由能传递及相关热力学量的emf测量研究

International Journal of Scientific Research in Chemistry Pub Date : 2023-05-05 DOI:10.32628/ijsrch23832

Mustafa B. Shamsuddin, Anil Kumar Chaohadia

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摘要

采用H2(Pt) |甘氨酸、HCl、X%二氧六烷、Hg2Cl2 | Hg…(C-1)m1 m2和e.mf，测定了298.15 K下二氧六烷-水体系中甘氨酸在10%、20%和30%二氧六烷中的去质子化常数。细胞是由E = E0 - rt / F(2.303)(对数mH + mCl_ + H + ? Cl_)…(1)日志在哪里? H + ? Cl_ = -(2 '√μ/(1 +√μ))+ ? 1μ(修改戴维斯方程)……(2)已由B普拉萨德戴维斯在我们实验室修改系统中计算活度系数方程,因此去质子化常数甘氨酸可以计算通过计算mH +给出的公式:日志mH + = (E0 - E) / K -日志mCl_ +(2“√μ/(1 +√μ))——? 1μ…(3)因此自由能量转移在298.15 K下测定甘氨酸脱质子常数时，计算了二氧六烷-水体系中10%、20%和30%二氧六烷的浓度。

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Study of Free Energy Transfer in 10, 20 and 30% Dioxane in Dioxane-Water System for Deprotonation of Glycine and Related Thermodynamic Quantities At 298.15 K by E.M.F Measurement

The deprotonation constant of glycine in 10%, 20% and 30% dioxane in dioxane-water system at 298.15 K was determined using the cell: H2(Pt) | Glycine, HCl, X% Dioxane, Hg2Cl2 | Hg …(C-1) m1 m2 and e.mf. of the cell was given by E = E0 - (2.303RT/F) (log mH+ mCl_ + log ?H+ ?Cl_) …(1) where log ?H+ ?Cl_ = - (2A’√μ/(1+√μ) ) + ?1μ (Modified Davies Equation) …(2) which has been given by B Prasad in our laboratory called modified Davies equation for calculating activity coefficient in the system and hence deprotonation constant of glycine can be calculated by calculating mH+ given by the formula: log mH+ = (E0 - E)/K - log mCl_ + (2A’ √μ/(1+ √μ)) - ?1μ …(3) Therefore Free energy transfer can be calculated for 10, 20 and 30% dioxane in dioxane-water system during determination of deprotonation constant of glycine at 298.15 K.

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International Journal of Scientific Research in Chemistry

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