ܝ Ouloacetate COO H-SCOA Citrate 600 T CO CHE CH CHOICES: A acetyl S-COA B. ADP C. ATP D. CO2 E. FAD F. FADH2 G.H20 H. NAD I. NADH/H J. O2 K. H-SCOA 16 BONUS COO 14 13 8 HO-C-COO CH? 21.00 COO CH -Coo Isocrate COO Malate HO-CH HO HT CH COO СОО Citric acid cycle 2 3 4 17 15 COO BONUS 6 COO CH 5 Pumatate 7 & 8 CH e-Ketoglutarale HC 12 CH, coo? C=0 11...
QUESTION 11 BE [CLO-5] The following equilibria were attained at 823 K 1. COO (s) + H2 (g) Co(s) + H20 (g) Kc1 = 67 2. Co (s) + CO2(g) ==== Coo(s) + CO (g) Kc2=0.002 What is the value of the equilibrium constant (Kc3) at the same temperature? 3. H2(g) + CO2 (g) CO(g) + H20 (g) K3 = ???? 66.998 33,500 0.13 67.002
2 In the block diagram below, G(s) -1/s, P(s)P(s) s-+2 s+2 D(s)- k-oo Ше-ks[1-e-s/1001. The inverse Laplace transforms of these equations are g(t), p(t),p(t), and d(t), respectively. The parameter K scales the feedback k-0 D(s) R(s) G(s) P(s) C(s) P(s) A Consider for a moment, D(s)- 0. Simplify the block diagram in terms of G(s), P(s), P(s) and find the transfer function by substituting the equations given above B What are the zeros and poles of the system you obtained...
AQ lou)s Kp= 3x lo 3 AL (oM)4 kf z 2 033 we disolve aoUC S) in 001M ALlWOs)s af)10m C) wht is PH be fore meltia Wao ? bAt what th does istt precipitact ing? we dissolvel No to male pM 10 CAaCA? s ecipitate presant PH 13 pre cipitate pesanCALCU)e]/[AL *J =? e At what p w. preiptate thart disaparing
What is the Eºcell, AG', and K for the following reaction? 12(s) + Mg(s) → Mg2+(aq) +2 1. (aq) You must show your work to get credit. Reduction Half-Reaction E° (V) 12 (s) + 2 e- →21 (aq) +0.535 Mg2+ (aq) + 2 e- Mg(s) -2.37 Which compound is being reduced in the following reaction: H2O2 (aq) + 2 Fe2+ (aq) + 2 H3O+ (aq) → 2 Fe3+ (aq) + 4 H20 (1)
Exercise 6 (6.4.35, p.452) Let A e Cnxn, and let S be a k-dimensional subspace of C". Then a vector ve S is called a Ritz vector of A from S if and only if there is a pie C such that the Rayleigh-Ritz-Galerkin condition Av – uv Is holds, that is, (Av – uv, s) = 0 for all s E S. The scalar u is called the Ritz value of A associated with v. Let 91, ...,qk be...
Consider a unity feedback control architecture where P(s) =
1/s^2 and C(s) = K * ((s + z)/(s + p)) . It is desired to design
the controller to place the dominant closed-loop poles at sd = −2 ±
2j. Fix the pole of the compensator at −20 rad/sec and use root
locus techniques to find values of z and K to place the closed–loop
poles at sd .
Problem 4 (placing a zero) Consider a unity feedback control architecture...
Question 12 of 18 > At a certain temperature, the K, for the decomposition of H.,S is 0.787. H,S(B) - H_(s) + S() Initially, only H, S is present at a pressure of 0.129 atm in a closed container. What is the total pressure in the container at equilibrium? atm P = ||
What is ΔG° for the following electrochemical equation? (E°red(K+/K) = –2.931 V, E°red(Ca2+/Ca) = –2.868 V) 2K(s) + Ca2+(aq) → 2K+(aq) + Ca(s) Select one: a. –12 kJ/mol b. –24 kJ/mol c. –6 kJ/mol d. 12 kJ/mol
T =1050 K P.950 kPa m-5k/s Q=12 kW Question 1 150 Points) Combustion gases that we can assume to be air enter a gas turbine at T-1050 K and P-950 kPa at a mass flow rate of 5 kg/s and leave the turbine at T 850 K and P-500 kPa. The heat lost to the surroundings at 25 °C is 12 kW. The flow through the turbine is steady state steady flow process. The air can be assumed to be...