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Consider the reaction ABB Question 1 1 pts Consider the reaction...
like me to grade. I vow did the take homeow 1. In glycolysis, the enzyme pyruvate...
like me to grade. I vow did the take homeow 1. In glycolysis, the enzyme pyruvate the enzyme pyruvate kinase catalyzes this reaction phosphoenolpyruvate + ADP - pyruvate + ATP caction using the information provided a. What is the equilibrium constant for below? (R-8.315 J/mol K; T = 298 K) Reaction 1: ATP - ADP +P Reaction 2: phosphoenolpyruvate vale pyruvate + PAG AG"=-30.5 kJ/mol pyruvate + P AGⓇ = -61.9 kJ/mol ntrations are provided below, what is the actual...
Please help and explain steps, thanks Consider the reaction of silver ion with bromide ion given...
Please help and explain steps, thanks
Consider the reaction of silver ion with bromide ion given below at 25°C. Ag+ (aq) + Br+ (aq) → AgBr (s) What is the value of AGº for this reaction, if the equilibrium constant, Keq = 2.0 x 1012? A) -5.9 kJ/mol B) -70 kJ/mol C) -5.9 x 103 kJ/mol D) -7.0 104 kJ/mol E) -0.69 kJ/mol The rest mass of a proton is 1.00727252 u and that of a neutron is 1.008665 u....
Question 20 1 pts Using provided data, determine AGº (kJ) for the following reaction. 2Fe(s) +...
Question 20 1 pts Using provided data, determine AGº (kJ) for the following reaction. 2Fe(s) + 3C12(8) 2FeCl3(s) AH® (kJ/mol) S (J/molk) Fe(s) 27.3 Cl2le) 223.0 FeCl3(s) -399.5 142 Question 21 1 pts Determine AG (in kJ) for the following reaction at 325K when the concentrations of the species are as follows: NO, - 10.00 M, N204 - 11.1 M. AGº (NO) - 51 kJ/mol, AG (N204) - 97.7 kJ/mol 2NO26) N20 (8)
Question 11 1 pts Consider the hydrolysis of ATP: ATP(aq) + H2O(1) - ADP(aq) + P(aq). This reaction has AH°= -24.3...
Question 11 1 pts Consider the hydrolysis of ATP: ATP(aq) + H2O(1) - ADP(aq) + P(aq). This reaction has AH°= -24.3 kJ/mol and AS - +21.6 J/mol-K. The actual concentrations of ATP, ADP, and Pi are not 1 Min a biological cell. How much energy can the conversion of ATP to ADP supply when it occurs at physiological conditions in E.coli where the temperature is 37°C and the approximate concentrations are ATP - 14.8 mM, ADP - 3.65 MM, P,...
Consider the reaction below. 3.4 mol of A and 8.4 mol of B are added to...
Consider the reaction below. 3.4 mol of A and 8.4 mol of B are
added to a 4 L container. At equilibrium, the concentration of A is
0.731 M. What is the concentration of at equilibrium? 1 A + 2 B
harr 5 C 1 A + 2 B harr 5 C Initial M M M Change - M - M + M
Equilibrium 0.731 M M M
Consider the reaction below. 3.4 mol of A and 8.4 mol of...
Please help with this question about Gibb's free energy. The answer is: -47.6 kJ/mol. Please show...
Please help with this question about Gibb's free energy. The
answer is: -47.6 kJ/mol. Please show steps on how to find this
answer!
1) In a rat hepatocyte, the concentrations of ATP, ADP and Pi are 3.4 mM, 1.3 mM and 4.8 mM, respectively. ATP + H2O → ADP + Pi + H+ a) Calculate the actual Gibb's free energy change for hydrolysis of ATP in this cell. ([H2O) = 1M; [H+] = 1M; R = 8.315 JK-mol-1; T =...
please show the calculations for question 19 and 21 if possible. thanks. Question #19 An aqueous...
please show the calculations for question 19 and 21 if
possible. thanks.
Question #19 An aqueous HBr solution was prepared at 20°C with a pH of 3.00. In this solution, this is the concentration of hydrogen ions that originated from water dissociation: (1) 1.00 x 10-7 mol/L; (2) 7.40 x 10 mol/L; (3) 6.81 x 10-2 mol/l, (4) None of the above Question #20 The dissociation of HCI (HCI-H+Cl) has an equilibrium constant value of 2.00 x 109 at 25°C.'...
Could someone please explain these answers? Question 1: Consider the overall free energy change (AG) and...
Could someone please explain
these answers?
Question 1: Consider the overall free energy change (AG) and the overall equilibrium constant (Keq) for a coupled reaction: (i) If the AG for the reaction A B is 'X'kJ.mole' and the AG for the reaction B-C is ‘Y' kJ.molel, what is the free energy change for the overall coupled reaction A C ? (XxY) kJ.mole" (X+Y) kJ.mole". (X+Y) kJ.mole-O (X-Y) kJ.mole- (ii) If the Keq for the reaction A B is 'X' and...
inneed help please! thanks QUESTION 31 (5 marks) The equilibrium constant at 37°C for the reaction...
inneed help please! thanks
QUESTION 31 (5 marks) The equilibrium constant at 37°C for the reaction cisaconitate isocitrate 2.5. reaction mixture is prepared with isocitrate at a concentration of 0.2 M, and cisaconitate at a concentration of 0.001 M. Which species is favoured (present in greater amount) when the system is at equilibrium? fraducts Calculate the free energy change for this reaction under these conditions. G RT E -3 x 10 x 2 . C .31 XiD G 20-1 Answer...
Consider this reaction: Glucose + Pi ⇔ glucose 6-phosphate + H2O, ∆Go = +3 kcal/mol Under physiologic conditions, [gluco...
Consider this reaction: Glucose + Pi ⇔ glucose 6-phosphate + H2O, ∆Go = +3 kcal/mol Under physiologic conditions, [glucose] = 5 mM, [Glucose 6-phosphate] = 83 mM, and [Pi] = 1 mM. Under these conditions, will the reaction above go spontaneously from left to right? If not, what would the concentration of glucose need to be for the reaction to go from left to right, if the concentrations of the other reactants and products are as stated? Please show all...
like me to grade. I vow did the take homeow 1. In glycolysis, the enzyme pyruvate the enzyme pyruvate kinase catalyzes this reaction phosphoenolpyruvate + ADP - pyruvate + ATP caction using the information provided a. What is the equilibrium constant for below? (R-8.315 J/mol K; T = 298 K) Reaction 1: ATP - ADP +P Reaction 2: phosphoenolpyruvate vale pyruvate + PAG AG"=-30.5 kJ/mol pyruvate + P AGⓇ = -61.9 kJ/mol ntrations are provided below, what is the actual...
Please help and explain steps, thanks
Consider the reaction of silver ion with bromide ion given below at 25°C. Ag+ (aq) + Br+ (aq) → AgBr (s) What is the value of AGº for this reaction, if the equilibrium constant, Keq = 2.0 x 1012? A) -5.9 kJ/mol B) -70 kJ/mol C) -5.9 x 103 kJ/mol D) -7.0 104 kJ/mol E) -0.69 kJ/mol The rest mass of a proton is 1.00727252 u and that of a neutron is 1.008665 u....
Question 20 1 pts Using provided data, determine AGº (kJ) for the following reaction. 2Fe(s) + 3C12(8) 2FeCl3(s) AH® (kJ/mol) S (J/molk) Fe(s) 27.3 Cl2le) 223.0 FeCl3(s) -399.5 142 Question 21 1 pts Determine AG (in kJ) for the following reaction at 325K when the concentrations of the species are as follows: NO, - 10.00 M, N204 - 11.1 M. AGº (NO) - 51 kJ/mol, AG (N204) - 97.7 kJ/mol 2NO26) N20 (8)
Question 11 1 pts Consider the hydrolysis of ATP: ATP(aq) + H2O(1) - ADP(aq) + P(aq). This reaction has AH°= -24.3 kJ/mol and AS - +21.6 J/mol-K. The actual concentrations of ATP, ADP, and Pi are not 1 Min a biological cell. How much energy can the conversion of ATP to ADP supply when it occurs at physiological conditions in E.coli where the temperature is 37°C and the approximate concentrations are ATP - 14.8 mM, ADP - 3.65 MM, P,...
Consider the reaction below. 3.4 mol of A and 8.4 mol of B are
added to a 4 L container. At equilibrium, the concentration of A is
0.731 M. What is the concentration of at equilibrium? 1 A + 2 B
harr 5 C 1 A + 2 B harr 5 C Initial M M M Change - M - M + M
Equilibrium 0.731 M M M
Consider the reaction below. 3.4 mol of A and 8.4 mol of...
Please help with this question about Gibb's free energy. The
answer is: -47.6 kJ/mol. Please show steps on how to find this
answer!
1) In a rat hepatocyte, the concentrations of ATP, ADP and Pi are 3.4 mM, 1.3 mM and 4.8 mM, respectively. ATP + H2O → ADP + Pi + H+ a) Calculate the actual Gibb's free energy change for hydrolysis of ATP in this cell. ([H2O) = 1M; [H+] = 1M; R = 8.315 JK-mol-1; T =...
please show the calculations for question 19 and 21 if
possible. thanks.
Question #19 An aqueous HBr solution was prepared at 20°C with a pH of 3.00. In this solution, this is the concentration of hydrogen ions that originated from water dissociation: (1) 1.00 x 10-7 mol/L; (2) 7.40 x 10 mol/L; (3) 6.81 x 10-2 mol/l, (4) None of the above Question #20 The dissociation of HCI (HCI-H+Cl) has an equilibrium constant value of 2.00 x 109 at 25°C.'...
Could someone please explain
these answers?
Question 1: Consider the overall free energy change (AG) and the overall equilibrium constant (Keq) for a coupled reaction: (i) If the AG for the reaction A B is 'X'kJ.mole' and the AG for the reaction B-C is ‘Y' kJ.molel, what is the free energy change for the overall coupled reaction A C ? (XxY) kJ.mole" (X+Y) kJ.mole". (X+Y) kJ.mole-O (X-Y) kJ.mole- (ii) If the Keq for the reaction A B is 'X' and...
inneed help please! thanks
QUESTION 31 (5 marks) The equilibrium constant at 37°C for the reaction cisaconitate isocitrate 2.5. reaction mixture is prepared with isocitrate at a concentration of 0.2 M, and cisaconitate at a concentration of 0.001 M. Which species is favoured (present in greater amount) when the system is at equilibrium? fraducts Calculate the free energy change for this reaction under these conditions. G RT E -3 x 10 x 2 . C .31 XiD G 20-1 Answer...
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