What reactions demonstrate reduction? Select all that apply FAD+ + 2H + 2e-→FADH2 O2→O2- Fe+2→Fe+3 NADH→NAD+...
What reactions demonstrate reduction? Select all that apply
FAD+ + 2H + 2e-→FADH2
O2→O2-
Fe+2→Fe+3
NADH→NAD+ + e- + H
Homework Answers
What reactions demonstrate reduction? Select all that apply
Answer- A. FAD+ + 2H + 2e-→FADH2
The reduction in the gain of an electron.
oxidation is the loss of an electron.
O2→O2- ,
Fe+2→Fe+3
NADH→NAD+ + e- + H
here oxygen is losing an electron and
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What reactions demonstrate reduction? Select all that apply
FAD+ + 2H + 2e-→FADH2
O2→O2-
Fe+2→Fe+3
NADH→NAD+...
Which of the following reactions are non spontaneous? A. Fe+2 > e' + Fe+3 B. pyruvate...
Which of the following reactions are non spontaneous? A. Fe+2 > e' + Fe+3 B. pyruvate + 2H+ + 2e' > lactate C. ATP > ADP + Pi D. NADH + H+ > 2e' + NAD+ + H+ E. FAD + 2H+ +2e' > FADH2
For the reaction: L-Malate + NAD⁺ ← → Oxaloacetate + NADH ΔE' = -0.154 n=2 T=298...
For the reaction: L-Malate + NAD⁺ ← → Oxaloacetate + NADH
ΔE' = -0.154
n=2
T=298 K
using the equation
ln (Keq) = (nFΔE'৹)/(RT)
Find Keq?
I know this sounds just plug and chug but am confused about the
signs of the numbers when plugged in. Please only answer if you're
of what you're doing!
Standard Reduction Potential of Some Biologically Important Half-Reactions, at pH 7.0 and 25°C (298 K) Half-reaction E' (V) 2H+ + 2e — H, (at standard...
Question 2 3 pts During oxidative phosphorylation, what gets oxidized? NADH FADH2 NAD+ FAD CO2 H20...
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
What would ΔG∘′ be for an enzyme that oxidizes succinate with NAD+ instead of FAD? Oxidant...
What would ΔG∘′ be for an enzyme that oxidizes succinate with NAD+ instead of FAD? Oxidant Reductant n E∘′(V) NAD++H++2e− ⇌ NADH 2 −0.32 Fumarate+2H++2e− ⇌ Succinate 2 0.03 Use the following equation and F = 96.485 kJ/mol. ΔG°’ = ‒nFΔE°’ Express your answer to two significant figures and include the appropriate units ΔG′= value w/ units please
Classify the half‑reactions as reduction half‑reactions or oxidation half‑reactions. H2(g)⟶2H+(aq)+2e−H2(g)⟶2H+(aq)+2e− 12O2(g)+2H+(aq)+2e−⟶H2O(g)12O2(g)+2H+(aq)+2e−⟶H2O(g) Cd(s)+2OH−(aq)⟶Cd(OH)2(s)+2e−Cd(s)+2OH−(aq)⟶Cd(OH)2(s)+2e− 2NiO(OH)(s)+2H2O(l)+2e
Classify the half‑reactions as reduction half‑reactions or oxidation half‑reactions. H2(g)⟶2H+(aq)+2e−H2(g)⟶2H+(aq)+2e− 12O2(g)+2H+(aq)+2e−⟶H2O(g)12O2(g)+2H+(aq)+2e−⟶H2O(g) Cd(s)+2OH−(aq)⟶Cd(OH)2(s)+2e−Cd(s)+2OH−(aq)⟶Cd(OH)2(s)+2e− 2NiO(OH)(s)+2H2O(l)+2e−⟶2Ni(OH)2(s)+2OH−(aq)2NiO(OH)(s)+2H2O(l)+2e−⟶2Ni(OH)2(s)+2OH−(aq) Fe(s)⟶Fe2+(aq)+2e−Fe(s)⟶Fe2+(aq)+2e− oxidation reduction reduction oxidation reduction
This is for biochem. Please answer and explain why? As a representation of the respiratory chain, what is wrong with this picture? There are 4 deliberate errors. Select all that apply NADHFAD ног Coa...
This is for biochem. Please answer and explain why?
As a representation of the respiratory chain, what is wrong with this picture? There are 4 deliberate errors. Select all that apply NADHFAD ног Coa 1. NADH is oxidized by FMN, not FAD. 2. NADH is oxidized by CoQ, not FAD. 3. Reduced flavin (FADH2 or FMNH2) is oxidized by CoQ, not CoQH2. 4. O2 is reduced to H2O, not H202 5. Cyt c, accepts e-from cyt a-a3, and is then...
Select all true statements regarding ETC: High-transfer-potential electrons from NAD+ and FAD+ are responsible for the...
Select all true statements regarding ETC: High-transfer-potential electrons from NAD+ and FAD+ are responsible for the oxidation of oxygen to synthesize ATP ETC components are arranged so that electrons always flow to the component with increasing reduction potential FADH2-derived electrons yield more ATP than the amount of ATP produced from NADH-derived electrons None of these statements are true. Electron flow from ETC generates proton gradient
Need help with part 2 The standard potentials for the reduction of nicotinamide adenine dinucleotide (NAD+)...
Need help with part 2
The standard potentials for the reduction of nicotinamide adenine dinucleotide (NAD+) and oxaloacetate (reactants in the multistep metabolism of glucose) are as follows: NAD (aq)2H -(aq) +2e - NADH(aq)H (aq) E°= -0.330 V Oxaloacetate2 (aq) + 2H°(aq) +2e"(aq) - malate2 (ag) E° = -0.166 V _ (0.5 point) Feedback Part 1 Calculate the standard potential for the following reaction: Oxaloacetate2 (aq) +NADH (aq) +H (aq) - malate2 (aq)NAD 0.164 Part 2 (0.5 point) xFeedback Calculate...
Classify the half-reactions as reduction half-reactions or oxidation half-reactions. H(g)2 H (aq) +2e Answer Bank 0,...
Classify the half-reactions as reduction half-reactions or oxidation half-reactions. H(g)2 H (aq) +2e Answer Bank 0, (8)+2H (aq)+2e H,O(g) oxidation reduction Cd(s)+20H (aq) Cd(OH), (s) + 2 e 2 NiO (OH)(s)+2H,O(1)+2 e 2 Ni(OH), (s)+ 2 OH (aq) Fe(s)Fe (aq) +2 e
1. What is the importance of NAD+/NADH to cellular respiration? 2. Be able to write out...
1. What is the importance of NAD+/NADH to cellular respiration? 2. Be able to write out the biochemical equations for glucose respiration and photosynthesis AND label the oxidizing and reducing agents in each reaction. 3. What are the three stages of cellular respiration and where does each occur in the cell? 4. During cellular respiration, what is the role of each of these molecules: glucose, pyruvate, ATP, NAD+, FAD, NADH, FADH2, acetyl CoA, CO2, H2O, and O2? 5. For each...
For the reaction: L-Malate + NAD⁺ ← → Oxaloacetate + NADH
ΔE' = -0.154
n=2
T=298 K
using the equation
ln (Keq) = (nFΔE'৹)/(RT)
Find Keq?
I know this sounds just plug and chug but am confused about the
signs of the numbers when plugged in. Please only answer if you're
of what you're doing!
Standard Reduction Potential of Some Biologically Important Half-Reactions, at pH 7.0 and 25°C (298 K) Half-reaction E' (V) 2H+ + 2e — H, (at standard...
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
This is for biochem. Please answer and explain why?
As a representation of the respiratory chain, what is wrong with this picture? There are 4 deliberate errors. Select all that apply NADHFAD ног Coa 1. NADH is oxidized by FMN, not FAD. 2. NADH is oxidized by CoQ, not FAD. 3. Reduced flavin (FADH2 or FMNH2) is oxidized by CoQ, not CoQH2. 4. O2 is reduced to H2O, not H202 5. Cyt c, accepts e-from cyt a-a3, and is then...
Select all true statements regarding ETC: High-transfer-potential electrons from NAD+ and FAD+ are responsible for the oxidation of oxygen to synthesize ATP ETC components are arranged so that electrons always flow to the component with increasing reduction potential FADH2-derived electrons yield more ATP than the amount of ATP produced from NADH-derived electrons None of these statements are true. Electron flow from ETC generates proton gradient
Need help with part 2
The standard potentials for the reduction of nicotinamide adenine dinucleotide (NAD+) and oxaloacetate (reactants in the multistep metabolism of glucose) are as follows: NAD (aq)2H -(aq) +2e - NADH(aq)H (aq) E°= -0.330 V Oxaloacetate2 (aq) + 2H°(aq) +2e"(aq) - malate2 (ag) E° = -0.166 V _ (0.5 point) Feedback Part 1 Calculate the standard potential for the following reaction: Oxaloacetate2 (aq) +NADH (aq) +H (aq) - malate2 (aq)NAD 0.164 Part 2 (0.5 point) xFeedback Calculate...
Classify the half-reactions as reduction half-reactions or oxidation half-reactions. H(g)2 H (aq) +2e Answer Bank 0, (8)+2H (aq)+2e H,O(g) oxidation reduction Cd(s)+20H (aq) Cd(OH), (s) + 2 e 2 NiO (OH)(s)+2H,O(1)+2 e 2 Ni(OH), (s)+ 2 OH (aq) Fe(s)Fe (aq) +2 e
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