step 1: find out reactions by using equlibrium equations
step 2: Now cut the each segment and apply shear and moment
equations
7eeST 3 LMahae FaD DecACTls CHeK (PLACE ECACTION A STRJUTUce 3Kt VIK) MK)
Assume that the diagrams shown below represent two moment diagrams M; and Mk that belong to a beam of length L. Evaluate the integral: I = SM; Mk dx Given: L=3 a = 3 r = 80 L/2 1/2
please help me ASAP
2. [10] COI A steel tube (ks - 43.26 W/mK) of 5.08 cm inner diameter and 7.62 em outer diameter is covered with 2.5 cm layer of insulation (k, -0.208 W/mK) the inside surface of the tube receivers heat from a hot gas at the temperature of 316°C with heat transfer co-efficient of 28 W/mK. While the outer surface exposed to the ambient air at 30°C with heat transfer co- efficient of 17 W/mK. Calculate heat...
Biochem 0. Fad Accepss H Proton H:H Acetyl groups 1. NAD+ accepts ___ H Proton H:H Acetyl groups 2. Coenzyme A accepts Acyl Acetyl Thioesters All of above 3. Which coenzyme upon oxidation reduction makes the most atp? CoA Lipoic Acid FAD NADH
What reactions demonstrate reduction? Select all that apply FAD+ + 2H + 2e-→FADH2 O2→O2- Fe+2→Fe+3 NADH→NAD+ + e- + H
12. (2 extra credit pts Take a close look at the reactions where FAD is involved and is transformed to FADH2. What type of reaction is typically associated with FAD? You find examples in gycolysis, P- oxidation and citric acid cycle to help vou decide, Use the same type of labels as for question 8. 13. (4 pts) Use the information from auestion 12 to help you predict the reactant of the following reaction. OH FADH FAD 14. (4 pts)...
Question 2 3 pts During oxidative phosphorylation, what gets oxidized? NADH FADH2 NAD+ FAD CO2 H20 protein complexes in the ETC 02 Question 3 1 pts Where would you find the ETC in a prokaryote? embedded in the plasma membrane embedded in the inner mitochondrial membrane embedded in the outer mitochondrial membrane in the mitochondrial matrix in the intermembrane space
5. Overall Summary equation of Citric Acid Cycle? Please include number of CoA, NAD, FAD, GDP and phosphates used or produced. 3 pts
place in order drom lowest to highest electron affinity
The redox pairs below all participate in the transfer of electrons from FADHS to oxygen. (This is not an exhaustive list. The values of the standard blochemical reduction potentials (E") are provided. Use the reduction potentials to order these pairs from west to highest electron affinity, which translates from initial donor to final acceptor ubiquinone/ubiquinol +0.045 V FAD FADH2 -0.040 V cytochrome 1 (FeFe?) +0.220 V 1/02H₂O 0 816 V Initial...
The roof ceiling has the following assembly: 1) metal structure slab: conductivity k1=4.0 W/mK, thickness L1=0.5 cm, 2) Polystyrene: k2=0.05 W/mK, L2=10 cm, 3) Ceiling tiles: k3=0.5 W/mK, L3=1.0 cm. Internal and external convection coefficients are: hinternal= 8 W/m2K and hexternal= 24 W/m2K. a) (2 points) Calculate the resistance of Concrete slab, Polystyrene, and Gypsum wall board. b) (1 point) Considering the insulation properties, which assembly component is the most important? Rank themaccording to the thermal insulation contribution. c) (2 points)...
Which of the following statements is true concerning catabolic pathways? 1. FAD is used as the primary reducing agent in catabolic pathways. 2. The end products of catabolic pathways are highly reduced compared to the initial substrate for the pathway. 3. NADH is a typical product of catabolic pathways. 4. NADPH is used as the primary reducing agent in catabolic pathways. 5. More ATP is used than generated in catabolic pathways.