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Use the data given here to calculate the values of AG xn at 25 °C for...
Use the data given here to calculate the values of AGfxn at 25 °C for the reaction described by the equation Compound AG; (kJ/mol) +387.7 -623.9 В A B C +402.0 С AGxn = kJ If AHixn and ASPxn are both negative values, what drives the spontaneous reaction and in what direction at standard conditions? The spontaneous reaction is O enthalpy-driven to the left. entropy-driven to the left. O enthalpy-driven to the right O entropy-driven to the right
Use the data given here to calculate the values of AGxn at 25 °C for the reaction described by the equation Compound A AG, (kJ/mol) +387.7 A+B C B +514.5 с +402.0 AGRX = kJ If A Hixn and ASin are both positive values, what drives the spontaneous reaction and in what direction at standard conditions? The spontaneous reaction is enthalpy-driven to the right entropy-driven to the left. enthalpy-driven to the left. O entropy-driven to the right.
Compound Use the data given in the table to calculate the value of AGixn at 25° C for the reaction described by the equation AG; (kJ/mol) +387.7 -614.9 +402.0 A+B = C AGixn = kJ mol If AHixn and ASixn are both positive values, what drives the spontaneous reaction and in what direction at standard conditions? The spontaneous reaction is enthalpy-driven to the right. The spontaneous reaction is entropy-driven to the left. The spontaneous reaction is entropy-driven to the right....
of 25 > Use the data given here to calculate the values of AG at 25 C for the reaction described by the equation Compound A AG (kl/mol) +387.7 - 552.1 +4020 B ABC с AG 537.8 J If AH;, and AS, are both positive values, what drives the spontaneous reaction and in what direction at standard conditions? The spontaneous reaction is O entropy driven to the left. Question sur MRG General Chemistry TP SAMSUNG с O O $ %...
Use the data given here to calculate the values of delta G^degree _rxn at 25^degree C for the reaction described by the equation A + B double headed arrow C If delta D^degree _rxn and delta S^degree _rxn are both negative values, what drives the spontaneous reaction and in what direction at standard conditions? The spontaneous reaction is entropy-driven to the right. entropy-driven to the left. enthalpy-driven to the left. enthalpy-driven to the right.
A critical reaction in the production of energy to do work or drive chemical reactions in biological systems is the hydrolysis of adenosine triphosphate, ATP, to adenosine diphosphate, ADP, as described by the reaction ATP(aq) + H,O(1) ADP(aq) + HPO- (aq) for which AG = -30.5 kJ/mol at 37.0 °C and pH 7.0. Calculate the value of AG xn in a biological cell in which [ATP] = 5.0 mm, (ADP) = 0.10 mM, and (HPO 1 - 5.0 mM. AG...
Use the data given hear to calculate the values of delta G degree_ at 25 degree C for the reaction described by the equation A + B C If delta H degree and delta S degree are both positive values what the reaction and in what direction at standard conditions? The reaction is entropy - driven to the right. entropy - driven to the right. entropy - driven to the right. entropy - driven to the right.
7. Use the given AH, Sº and AGºr values to calculate the AG at 25°C for the following reaction two different ways. First with the AHºnx and AS°n to get AGºnn and then with AGº's to get AGºra. Compare your results. CS2(g) + 2H2O + 2O2(g) – CH4(g) + 2SO4(g) AH° (kJ/mol) 117 -286 0 -396 Sº (J/mol-K) 238 70. 205 186 257 AGⓇ (kJ/mol) 67 -237 0 -51 -371 -75 For each of the following redox reactions, a) Write...
9. Determine the value of AG° at 25 °C for the reaction below given the following data: CH (g) AG° = 68 kJ/mol, H.O(g) AG -229 kJ/mol, CH,H,OH(aq) AG =-175 kJ/mol CH. (g) + H2O (g) →CH,H,OH(aq) 10. Chloroform, CHCI, has a normal boiling point of 61 °C and it enthalpy of vaporization is 29.24 kJ/mol, what is its entropy of vaporization in J/mol Kat 61 °C? Before you calculate it write a chemical equation for this process and predict...
• Calculate AH , AS and AG for the reaction below at 115°C. Before you begin calculating, predict signs (+ or -) for enthalpy, entropy, and free energy of reaction. • Is the reaction spontaneous at 115°C? Na 0 (8) + H2O() → NaOH () Na,0 (s) HO (D) NaOH (s) AH°, (kJ/mol) 414.2 -285.8 -427.0 Sº (J/K-mol) 75.1 70.0 64.0