Biochemistry
6th Edition
ISBN: 9781305577206
Author: Reginald H. Garrett, Charles M. Grisham
Publisher: Cengage Learning
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Chapter 20, Problem 15P
Interpretation Introduction
To propose:
Using complex IV describing the path of electrons.
Introduction:
When four electrons and two protons react with
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Inside a body, this reaction has a value of positive ∆G
C6H12O6 + H3PO4 → C6H14O12P2 + H2O ∆G= +13.4 kJ/mol
Can you show me how to keep this reaction going in living things? Prove it with calculations
uestion (1 point)
e See section 9.8
A number of reactions can be used to generate common gases on a laboratory scale. For example, nitrogen can be produced from sodium metal
and potassium nitrate as indicated by the balanced equation:
10Na(s) + 2KNO3(s) K₂O(s)+5Na₂O(s)+N2(g)
A common laboratory-scale reaction can also generate oxygen gas by heating potassium chlorate, as indicated by the balanced equation:
2KCIO3(s) -
2KCI(s)+302(g)
1st attempt
Part 1 (0.5 point)
See Periodic Table See Hint
What mass of potassium nitrate is needed to generate 179.0 L of gas, composed of 135.0 L of N2 and 44.0 L of O2 at 0.920 atm
and 291 K, using these two reactions?
g KNO
Part 2 (0.5 point)
What mass of potassium chlorate is needed to generate 179.0 L of gas, composed of 135.0 L of N2 and 44.0 L of O2 at 0.920 atm
and 291 K, using these two reactions?
g KCIO
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