High School Chemistry : Electrochemistry

Study concepts, example questions & explanations for High School Chemistry

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Example Questions

Example Question #1 : Help With Electrolytic Cells

How does an electrolytic cell differ from a galvanic cell?

Possible Answers:

Oxidation takes place at the anode in an electrolytic cell, but at the cathode in a galvanic cell

The cell potential is positive in an electrolytic cell

The cathode is marked negative in an electrolytic cell

Oxidation takes place at the anode in a galvanic cell, but at the cathode in an electrolytic cell

Correct answer:

The cathode is marked negative in an electrolytic cell

Explanation:

Oxidation always takes place at the anode, regardless of the electrical cell type. The charges on the anode and cathode are reversed between galvanic and electrolytic cells. In electrolytic cells, the cathodes are marked negative and the anodes are marked positive. In galvanic cells, the reverse is true: cathodes are marked positive and anodes are marked negative.

Example Question #1 : Help With Anodes And Cathodes

Consider the following ionic equation for a galvanic cell:

Which of the following takes place at the anode?

Possible Answers:

Tin is oxidized

Iron is oxidized

Tin is reduced

Iron is reduced

Correct answer:

Tin is oxidized

Explanation:

Remember the acronym "OIL RIG:" Oxidation Is Loss (of electrons), Reduction Is Gain (of electrons).

In the above reaction tin loses two electrons, and is oxidized in the process. Iron is reduced because each iron ion gains an electron.

Reduction: 

Oxidation: 

In an electrical cell, oxidation always takes place at the anode. As a result, tin is oxidized at the anode.

Example Question #1 : Help With Anodes And Cathodes

Consider the following redox net ionic reaction:

Which half reaction takes place at the cathode?

Possible Answers:

Correct answer:

Explanation:

The reduction half reaction always takes place at the cathode. As a result, we are looking for the half reaction in which electrons combine with an ion in order to produce a metal product. Remember that reduction is a gain of electrons.

For the redox reaction above, copper ions are reduced in order to form copper metal. Since this is the reduction reaction, it must occur at the cathode.

Reduction: 

Oxidation: 

Example Question #1 : Help With Anodes And Cathodes

Consider the following electrolytic cell:

      

What happens at the anode in the electrolytic cell?

Possible Answers:

Iron is reduced

Nickel is reduced

Iron is oxidized

Nickel is oxidized

Correct answer:

Nickel is oxidized

Explanation:

It does not matter if the cell is galvanic or electrolytic; oxidation will always take place at the anode. This means that the nickel loses two electrons and is oxidized at the anode to generate nickel ions.

Nickel ions and iron are products, and are neither oxidized nor reduced during the reaction. Iron ions are reduced at the cathode to generate the iron product.

Example Question #3 : Help With Anodes And Cathodes

Which of the following species is being produced at the anode?

Possible Answers:

Correct answer:

Explanation:

Remember: AN OX and RED CAT (the ANode is the site of OXidation, and REDuction takes place at the CAThode). Also remember OIL RIG (Oxidation Is Loss of electrons and Reduction Is Gain of electrons). The question asks us which species is produced at the cathode (site of reduction). Also, remember that electrons always flow from anode to cathode, and that galvanic cells are spontaneous reactions (positive ), and since electrons are negatively charged, they spontaneously flow from the anode (negative cell) to the cathode (positive cell) according to the law of attraction.  is being produced at the anode because electrons are being transferred from the anode to the cathode. In this case, the lithium ions are gaining electrons to form solid lithium at the cathode. Solid potassium is losing electrons at the anode to form .

Example Question #4 : Help With Anodes And Cathodes

  

  

  

  

 

Which of the following species would mostly likely be reduced, if placed in a galvanic cell with another species?

Possible Answers:

Correct answer:

Explanation:

Remember that reduced means to gain electron, while oxidized means to lose electrons.

Using the equation: , for a spontaneous reaction to occur,  must be positive. With solid mercury as the product, any other solid can act as the reactants, and still give a positive , because it has the highest  value. 

As a result, the equation,, remains unchanged, and mercury ions will gain electrons and be reduced to liquid mercury. Any other paired equation must be inverted to give electrons.  

Example Question #561 : High School Chemistry

Which of the following species is being produced at the cathode?

Possible Answers:

Correct answer:

Explanation:

Remember: AN OX and RED CAT (the ANode is the site of OXidation, and REDuction takes place at the CAThode). Also remember OIL RIG (Oxidation Is Loss of electrons and Reduction Is Gain of electrons). The question asks us which species is produced at the cathode (site of reduction). Also, remember that electrons always flow from anode to cathode, and that galvanic cells are spontaneous reactions (positive ), and since electrons are negatively charged, they spontaneously flow from the anode (negative cell) to the cathode (positive cell) according to the law of attraction. Thus, we are looking for the species that gains electrons. Nickel goes from an oxidation state of  to .  is being produced because electrons are being transferred from the anode to the cathode. In this case, the nickel ions are gaining electrons to form  and this can only happen at the cathode.  

Example Question #5 : Help With Anodes And Cathodes

                  

       

          

           

           

Which of the following species would mostly likely be reduced, if placed in a electrochemical cell with another species?

Possible Answers:

Correct answer:

Explanation:

Using the equation: , for a spontaneous reaction to occur,  must be positive. With chlorine ions as the product, any other solid can act as the reactants, and still give a positive , because it has the highest  value. As a result, the equation,, remains unchanged, and chlorine gas will gain electrons and reduce to chlorine ions. Any other paired equation must be inverted to give electrons. 

Example Question #5 : Help With Anodes And Cathodes

                  

       

          

           

           

Which of the following species would mostly likely be oxidized, if placed in a electrochemical cell with another species?

Possible Answers:

Correct answer:

Explanation:

Using the equation: , for a spontaneous reaction to occur,  must be positive. With solid lithium as the reactant, any other solid can act as the product, and still give a positive , because the  is the lowest value for lithium equation. Subtracting a negative number will give a positive value.

As a result, the equation,, will become inverted to make the solid lithium a reactant. . Solid lithium will give electrons, and oxidize, to reduce other ions. 

Example Question #5 : Help With Anodes And Cathodes

Which of the following species is being produced at the cathode?

Possible Answers:

Correct answer:

Explanation:

Remember: AN OX and RED CAT (the ANode is the site of OXidation, and REDuction takes place at the CAThode). Also remember OIL RIG (Oxidation Is Loss of electrons and Reduction Is Gain of electrons). The question asks us which species is produced at the cathode (site of reduction). Also, remember that electrons always flow from anode to cathode.

No knowledge about whether the cell is galvanic or electrolytic is needed, because the question assumes that the chemical reaction takes places.

 is being produced at the cathode because electrons transfer from the anode to the cathode. In this reaction,  are gaining electrons to form , and the gaining of electrons only happens at the cathode. Therefore,  is produced at the cathode. On the other hand,  loses electrons to produce  in the reaction, and the losing of the electrons only occur at the anode.

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