![(a) Calculate ?G for the reaction: 2H,000 H()+OH (ag) at 25 C given the following initial concentrations. HO] 1.0x 10-12 M and (OH]- 20 x10* M (b) Predict the direction in which the reaction will proceed spontaneously to establish equilibrium. 10. The AG° for the reaction: N,(g)+3H,(g)0 2NH,(g) is 33.3 kJ/mol at 25°C. What is the value of Kp?](http://img.homeworklib.com/questions/9450b1b0-9769-11eb-bcc0-b52bda281b41.png?x-oss-process=image/resize,w_560)
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(a) Calculate ?G for the reaction: 2H,000 H()+OH (ag) at 25 C given the following initial...
Question 5 10 pts (A) Calculate AG for the reaction: 2H20 (1) = H3O+ (aq) +...
Question 5 10 pts (A) Calculate AG for the reaction: 2H20 (1) = H3O+ (aq) + OH- (aq) at 25°C given the following initial concentrations, and thermodynamic values: [H30*) - 1.0 x 10-12 M and (OH) = 2.0 x 108M Substance AG; (H) 34.0 H30+ (aq) OH(aq) H2O(1) 1595 -237 (B) Predict the direction in which the reaction will proceed spontaneously to establish equilibrium. For full credit be sure to upload a copy of All work necessary to arrive at...
03(g) + OH(g) =H(g) + 2 O2(g) AG° = 5.8 kJ/mol at 298 K, A,Gº =...
03(g) + OH(g) =H(g) + 2 O2(g) AG° = 5.8 kJ/mol at 298 K, A,Gº = 0 kJ/mol at 354 K, and 4 Gº = -2.0 kJ/mol at 373 K. (a) Calculate the equilibrium constant value for this reaction at 298K, 354 K, and 373 K. (b) At 354K, calculate the change in the Gibbs energy of the reaction, AG when the partial pressures of O3 and OH are kept at 10 bar and 30 bar, respectively, while O2 and...
9. Determine the value of AG° at 25 °C for the reaction below given the following...
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...
please Help its due in 1 hour 3. Consider the following reaction at 25°C N204(g) = 2NO2(g) AG° = 5.40 kJ ontains initia...
please Help its due in 1 hour
3. Consider the following reaction at 25°C N204(g) = 2NO2(g) AG° = 5.40 kJ ontains initial concentrations of 0.453 M N2O4 and 0.150 M NO2. What A reaction vessel contains initial concentrang is the AG for the reaction at this temperature? a. -7437 kJ b. -68.00 kJ c. 9.08 kJ d. -2.04 kJ e. 5.32 kJ A mixture of 0.500 mol H2 and 0.500 mol l was placed in a 1.00 L vessel...
The AG = 51.0 kJ/mol, for the formation of NO2. Calculate the Kp value at 25°C...
The AG = 51.0 kJ/mol, for the formation of NO2. Calculate the Kp value at 25°C for the reaction: 2 O2 (g) + N2 (g) → 2 NO2 (g) RT AGE=Lnk Slovo - 18.34 (293) '=-RT Lnk RT slegt/mol $1,000/00 -20.58 25+273= 278 78e-20.88 13 2X10 115x107 Kp = 1.18 X10-
A. Calculate A Gº and Kp for the following equilibrium reaction at 25°C. The AG, values...
A. Calculate A Gº and Kp for the following equilibrium reaction at 25°C. The AG, values are 0 for Cl2 (9), -286 kJ/mol for PC13 (9), and -325 kJ/mol for PC15 (9). B. Now calculate AG for the reaction if the partial pressures of the initial mixture are PPC15=0.0029 atm, PPC13=0.27 atm, and PC12=0.40 atm Attach File
Question 1 1 pts Calculate AG at 25 °C, in kJ, f or the following reaction,...
Question 1 1 pts Calculate AG at 25 °C, in kJ, f or the following reaction, at Fe 0.82, PH2-1.668 (atm), and[H] 0.339 M. Fe(s) 2H (aq) Fe2H2(g) ΔGo for Fe2+--78.9 kJ/mol
uton containing 110 5. Determine the equilibrium constant Kp at 25°C for the reaction N2(g) + 3H2(g) [AG°f (NH3(g))...
uton containing 110 5. Determine the equilibrium constant Kp at 25°C for the reaction N2(g) + 3H2(g) [AG°f (NH3(g)) = -16.6 kJ/mol]. (show your calculation steps) de 2NH3(g)
The value of AG° is +4,730 J/mole for the reaction N,O.(g) 2NO. (g) at 25°C K=...
The value of AG° is +4,730 J/mole for the reaction N,O.(g) 2NO. (g) at 25°C K= a) Use the value of AG° to calculate the value of K for this reaction at 25°C? b) Calculate the value of Q and of AG if you begin with a concentration of 0.300M N2O4 and a concentration of 1.40 M NO, c) In which direction will the reaction proceed to reach equilibrium under these conditions?
25 Select True or False: For the reaction SbC15(9) — SbC13(g) + Cl2(g). AG f (SbC15)...
25 Select True or False: For the reaction SbC15(9) — SbC13(g) + Cl2(g). AG f (SbC15) = -334,34 kJ/mol AG°(SbC13) = -301.25 kJ/mol AHf (SbC15) = -394.34 kJ/mol AH°F (SbC13) = -313.80 kJ/mol This reaction proceeds spontaneously at 298 K and 1 atm pressure. True or False True False
Question 5 10 pts (A) Calculate AG for the reaction: 2H20 (1) = H3O+ (aq) + OH- (aq) at 25°C given the following initial concentrations, and thermodynamic values: [H30*) - 1.0 x 10-12 M and (OH) = 2.0 x 108M Substance AG; (H) 34.0 H30+ (aq) OH(aq) H2O(1) 1595 -237 (B) Predict the direction in which the reaction will proceed spontaneously to establish equilibrium. For full credit be sure to upload a copy of All work necessary to arrive at...
03(g) + OH(g) =H(g) + 2 O2(g) AG° = 5.8 kJ/mol at 298 K, A,Gº = 0 kJ/mol at 354 K, and 4 Gº = -2.0 kJ/mol at 373 K. (a) Calculate the equilibrium constant value for this reaction at 298K, 354 K, and 373 K. (b) At 354K, calculate the change in the Gibbs energy of the reaction, AG when the partial pressures of O3 and OH are kept at 10 bar and 30 bar, respectively, while O2 and...
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...
please Help its due in 1 hour
3. Consider the following reaction at 25°C N204(g) = 2NO2(g) AG° = 5.40 kJ ontains initial concentrations of 0.453 M N2O4 and 0.150 M NO2. What A reaction vessel contains initial concentrang is the AG for the reaction at this temperature? a. -7437 kJ b. -68.00 kJ c. 9.08 kJ d. -2.04 kJ e. 5.32 kJ A mixture of 0.500 mol H2 and 0.500 mol l was placed in a 1.00 L vessel...
The AG = 51.0 kJ/mol, for the formation of NO2. Calculate the Kp value at 25°C for the reaction: 2 O2 (g) + N2 (g) → 2 NO2 (g) RT AGE=Lnk Slovo - 18.34 (293) '=-RT Lnk RT slegt/mol $1,000/00 -20.58 25+273= 278 78e-20.88 13 2X10 115x107 Kp = 1.18 X10-
A. Calculate A Gº and Kp for the following equilibrium reaction at 25°C. The AG, values are 0 for Cl2 (9), -286 kJ/mol for PC13 (9), and -325 kJ/mol for PC15 (9). B. Now calculate AG for the reaction if the partial pressures of the initial mixture are PPC15=0.0029 atm, PPC13=0.27 atm, and PC12=0.40 atm Attach File
Question 1 1 pts Calculate AG at 25 °C, in kJ, f or the following reaction, at Fe 0.82, PH2-1.668 (atm), and[H] 0.339 M. Fe(s) 2H (aq) Fe2H2(g) ΔGo for Fe2+--78.9 kJ/mol
uton containing 110 5. Determine the equilibrium constant Kp at 25°C for the reaction N2(g) + 3H2(g) [AG°f (NH3(g)) = -16.6 kJ/mol]. (show your calculation steps) de 2NH3(g)
The value of AG° is +4,730 J/mole for the reaction N,O.(g) 2NO. (g) at 25°C K= a) Use the value of AG° to calculate the value of K for this reaction at 25°C? b) Calculate the value of Q and of AG if you begin with a concentration of 0.300M N2O4 and a concentration of 1.40 M NO, c) In which direction will the reaction proceed to reach equilibrium under these conditions?
25 Select True or False: For the reaction SbC15(9) — SbC13(g) + Cl2(g). AG f (SbC15) = -334,34 kJ/mol AG°(SbC13) = -301.25 kJ/mol AHf (SbC15) = -394.34 kJ/mol AH°F (SbC13) = -313.80 kJ/mol This reaction proceeds spontaneously at 298 K and 1 atm pressure. True or False True False
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