In the given pH , spontaneity of given reaction should be explained Concept introduction: Cell potential (EMF): The maximum potential difference between two electrodes of voltaic cell is known as cell potential. If standard reduction potentials of electrodes are given the cell potential (EMF) is given by, E cell = E cathode -E anode Where, E cathode is the reduction half cell potential E anode is the oxidation half cell potential Nernst equation: The relationship between standard cell potential and cell potential at non standard conditions and the reaction quotient are given by Nernst equation it is, E cell = E° cell - 0.0592 n logQ Where, E cell is cell potential E° cell is standard cell potential Q is reaction quotient n isnumber of electrons pH : Ph of the solution is nothing but the concentration of Hydrogen ion in given solution in given condition and it is given by negative logarithm of base ten Hydrogen ion concentration. pH=-log[H + ]
In the given pH , spontaneity of given reaction should be explained Concept introduction: Cell potential (EMF): The maximum potential difference between two electrodes of voltaic cell is known as cell potential. If standard reduction potentials of electrodes are given the cell potential (EMF) is given by, E cell = E cathode -E anode Where, E cathode is the reduction half cell potential E anode is the oxidation half cell potential Nernst equation: The relationship between standard cell potential and cell potential at non standard conditions and the reaction quotient are given by Nernst equation it is, E cell = E° cell - 0.0592 n logQ Where, E cell is cell potential E° cell is standard cell potential Q is reaction quotient n isnumber of electrons pH : Ph of the solution is nothing but the concentration of Hydrogen ion in given solution in given condition and it is given by negative logarithm of base ten Hydrogen ion concentration. pH=-log[H + ]
Solution Summary: The author explains that cell potential is the maximum potential difference between two electrodes of voltaic cell. The reaction quotient is given by Nernst equation.
The relationship between standard cell potential and cell potential at non standard conditions and the reaction quotient are given by Nernst equation it is,
Ph of the solution is nothing but the concentration of Hydrogen ion in given solution in given condition and it is given by negative logarithm of base ten Hydrogen ion concentration.
4. Determine the amount in grams of AgCl (s) formed when 2.580 g AgNO3(s) is added to
45.00 mL of a 0.1250 M CrCl3 (aq) (The other product is aqueous chromium (III) nitrate)
5. Determine the amount (in grams) of Cobalt (II) phosphate formed when an aqueous solution
of 30.0 ml of 0.450 M Sodium Phosphate is mixed with 20.0 mL of 0.500 M aqueous
solution of cobalt (II) nitrate. (The other product is aqueous sodium nitrate)
7. Consider the following reaction that describes the dissolution of copper metal in nitric acid:
Cu (s)
+ 4 HNO3 (aq)
→
Cu(NO3)2 (aq) +
2 H₂O (1)
+
2 NO2 (g)
How many mL of 3.50 M HNO3 (aq) are required to dissolve 20.00 g Cu?
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