At equilibrium, the cell reaction will proceed toward the formation of more products has to be predicted. Concept introduction: Conventional notation for representing Galvanic cell: The single vertical line represents a phase boundary. The double vertical line denotes the salt bridge. Anode is written first to the left of the double lines, and the cathode is written to the right of the double lines. The electron is moving from Anode to cathode. Standard reduction potential: The voltage associated with a reduction reaction at an electrode when all solutes are 1M and all gases are at 1 atm. The hydrogen electrode is called the standard hydrogen electrode (SHE). Standard emf: E o cell is composed of a contribution from the anode and a contribution from the cathode is given by, E c e l l o = E c a t h o d e o − E a n o d e o Where both E c a t h o d e o and E a n o d e o are the standard reduction potentials of the electrodes.
At equilibrium, the cell reaction will proceed toward the formation of more products has to be predicted. Concept introduction: Conventional notation for representing Galvanic cell: The single vertical line represents a phase boundary. The double vertical line denotes the salt bridge. Anode is written first to the left of the double lines, and the cathode is written to the right of the double lines. The electron is moving from Anode to cathode. Standard reduction potential: The voltage associated with a reduction reaction at an electrode when all solutes are 1M and all gases are at 1 atm. The hydrogen electrode is called the standard hydrogen electrode (SHE). Standard emf: E o cell is composed of a contribution from the anode and a contribution from the cathode is given by, E c e l l o = E c a t h o d e o − E a n o d e o Where both E c a t h o d e o and E a n o d e o are the standard reduction potentials of the electrodes.
Solution Summary: The author explains how the cell reaction will proceed toward the formation of more products at equilibrium.
At equilibrium, the cell reaction will proceed toward the formation of more products has to be predicted.
Concept introduction:
Conventional notation for representing Galvanic cell:
The single vertical line represents a phase boundary. The double vertical line denotes the salt bridge. Anode is written first to the left of the double lines, and the cathode is written to the right of the double lines. The electron is moving from Anode to cathode.
Standard reduction potential: The voltage associated with a reduction reaction at an electrode when all solutes are 1M and all gases are at 1 atm. The hydrogen electrode is called the standard hydrogen electrode (SHE).
Standard emf:Eocell is composed of a contribution from the anode and a contribution from the cathode is given by,
Ecello=Ecathodeo−Eanodeo
Where both Ecathodeo and Eanodeo are the standard reduction potentials of the electrodes.
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Question 59 of 70
The volume of
1
unit of plasma is 200.0 mL
If the recommended dosage
for adult patients is 10.0 mL per kg of body mass, how many units are needed for
a patient with a body mass of 80.0
kg ?
80.0
kg
10.0
DAL
1
units
X
X
4.00
units
1
1
Jeg
200.0
DAL
L
1 units
X
200.0 mL
= 4.00 units
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D
200.0
2.00
1.60 × 10³
80.0
4.00
0.0400
0.250
10.0
8.00
&
mL
mL/kg
kg
units/mL
L
unit
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Identify the starting material in the following reaction. Click the "draw structure" button to launch the
drawing utility.
draw structure ...
[1] 0 3
C10H18
[2] CH3SCH3
H
In an equilibrium mixture of the formation of ammonia from nitrogen and hydrogen, it is found that
PNH3 = 0.147 atm, PN2 = 1.41 atm and Pн2 = 6.00 atm. Evaluate Kp and Kc at 500 °C.
2 NH3 (g) N2 (g) + 3 H₂ (g)
K₂ = (PN2)(PH2)³ = (1.41) (6.00)³ = 1.41 x 104
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