During aerobic respiration, the entries of NADH and FADH2 into the electron transport chain generate different...

1.in this phase of cellular respiration, glucose is completely broken down into carbon dioxide gas, some...

1.in this phase of cellular respiration, glucose is completely broken down into carbon dioxide gas, some ATP is produced, and many molecules of NADH and some FADH2 are produced. glucose breakdown oxidative phosphorylation 2. In this phase of cellular respiration, NADH and FADH2 are used to power the electron transport chain, which in turn creates the conditions needed for the ATP synthase enzyme to make ATP. glucose breakdown oxidative phosphorylation

in the electron transport chain, what is the energy from NADH & FADH2 being used to...

in the electron transport chain, what is the energy from NADH & FADH2 being used to do? a. To split a glucose molecule in half. b. To actively pump H+ ions and create a proton (H+) gradient. c. To ‘charge up’ the many electron carriers, NADH & FADH2 to be used in the electron transport chain. d. To make 32 ATP

During the electron transport chain process in aerobic cellular respiration, ________________. Question 1 options: A) chemiosmosis...

During the electron transport chain process in aerobic cellular respiration, ________________. Question 1 options: A) chemiosmosis is directly caused by electron transfer B) each electron carrier is phosphorylated C) ATP is generated at each step D) energy of the electrons increases at each step E) a proton concentration gradient is created across a membrane

Which of the following forms as a result of 19 NADH molecules entering the electron transport...

Which of the following forms as a result of 19 NADH molecules entering the electron transport chain during aerobic respiration? 57 ATP 19 water molecules Only 1 Only 2 Both 1 and 2 Neither 1 or 2

1. Where does the electron transport chain process take place? in the inner membrane of mitochondria...

1. Where does the electron transport chain process take place? in the inner membrane of mitochondria in the outer membrane of mitochondria in the intermembrane space of mitochondria in the matrix of mitochondria 2. Which products of the citric acid cycle are funneled into the electron transport chain? only ATP only NAD+ and FADH2 only NADH and ATP NADH, FADH2, H+, and ATP NADH, FADH2, and H+ 3. How many molecules of CO2 are produced for each turn of the...

Cellular respiration: 1) NADH is produced by this pathway. 2) The electron transport chain removes protons...

Cellular respiration: 1) NADH is produced by this pathway. 2) The electron transport chain removes protons from which part of mitochondria? 3) ATP is produced in all stages of cellular respiration EXCEPT _____. is this one glycolysis or pyruvate oxidation? If neither than i am very confused hah.

Where do NADH and FADH2 get the electrons that they bring to the electron transport chain?

Where do NADH and FADH2 get the electrons that they bring to the electron transport chain?

Diagram the process of electron transport (from NADH to O2 ) and oxidative phosphorylation in a...

Diagram the process of electron transport (from NADH to O2 ) and oxidative phosphorylation in a suspension of these vesicles.

Although both molecules are two electron carriers, NADH generates 2.5 ATP and FADH2 generates only 1.5...

Although both molecules are two electron carriers, NADH generates 2.5 ATP and FADH2 generates only 1.5 ATPs. 1) Explain how electron transport plays a role in ATP synthesis. 2) Explain why a different amount of ATP is produced for each of these electron carriers.

In the electron transport chain, the oxidation of NADH to NAD+ is coupled to the reduction...

In the electron transport chain, the oxidation of NADH to NAD+ is coupled to the reduction of O2 in to H2O, and 3.5 ATP molecules are made from ADP and Pi, for each molecule of NADH. Remember to show all work! i) Write out the balanced REDOX reaction involving NADH and O2 as substrates. ii) Calculate the ΔE°’ and ΔG°’ for the reaction, where one mole of NADH molecules is oxidized. iii) How much energy is required to make 3.5...