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Test: Test of Fe2+ and Fe3+ - JAMB MCQ


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10 Questions MCQ Test - Test: Test of Fe2+ and Fe3+

Test: Test of Fe2+ and Fe3+ for JAMB 2024 is part of JAMB preparation. The Test: Test of Fe2+ and Fe3+ questions and answers have been prepared according to the JAMB exam syllabus.The Test: Test of Fe2+ and Fe3+ MCQs are made for JAMB 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Test of Fe2+ and Fe3+ below.
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Test: Test of Fe2+ and Fe3+ - Question 1
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Which of the following reagents is commonly used to test for the presence of Fe2+ ions?

Detailed Solution for Test: Test of Fe2+ and Fe3+ - Question 1

Ammonium hydroxide is commonly used to test for the presence of Fe2+ ions. When ammonium hydroxide is added to a solution containing Fe2+ ions, a light green precipitate of iron(II) hydroxide [Fe(OH)2] is formed. This precipitation reaction is a characteristic test for Fe2+ ions.

Test: Test of Fe2+ and Fe3+ - Question 2
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Fe3+ ions can be reduced to Fe2+ ions by:

Detailed Solution for Test: Test of Fe2+ and Fe3+ - Question 2

Fe3+ ions can be reduced to Fe2+ ions by adding a reducing agent. Zinc (Zn) is commonly used as a reducing agent in this context. When zinc is added to a solution containing Fe3+ ions, the zinc reacts with Fe3+ ions, transferring electrons and reducing Fe3+ to Fe2+.

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Test: Test of Fe2+ and Fe3+ - Question 3
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Which of the following color changes is observed when Fe2+ ions are oxidized to Fe3+ ions?

Detailed Solution for Test: Test of Fe2+ and Fe3+ - Question 3

When Fe2+ ions are oxidized to Fe3+ ions, the color of the solution changes from pale green to orange-brown. This color change is due to the formation of the Fe3+ ion, which has an orange-brown color in solution.

Test: Test of Fe2+ and Fe3+ - Question 4
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Which of the following tests can be used to distinguish between Fe2+ and Fe3+ ions?
Detailed Solution for Test: Test of Fe2+ and Fe3+ - Question 4

Redox titration can be used to distinguish between Fe2+ and Fe3+ ions. In a redox titration, a reducing agent is used to reduce Fe3+ to Fe2+ or an oxidizing agent is used to oxidize Fe2+ to Fe3+. By measuring the amount of reducing or oxidizing agent required to reach an equivalence point, the oxidation state of iron can be determined.

Test: Test of Fe2+ and Fe3+ - Question 5
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When Fe2+ ions react with potassium manganate(VII) (KMnO4) in an acidic medium, the Fe2+ ions are oxidized to Fe3+ ions and the MnO4- ions are reduced to:
Detailed Solution for Test: Test of Fe2+ and Fe3+ - Question 5

When Fe2+ ions react with potassium manganate(VII) (KMnO4) in an acidic medium, Fe2+ ions are oxidized to Fe3+ ions, and the MnO4- ions are reduced to brown manganese dioxide (MnO2). This reaction is commonly known as the "iodometric titration."

Test: Test of Fe2+ and Fe3+ - Question 6
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The color change observed when potassium thiocyanate (KSCN) is added to a solution containing Fe3+ ions is:
Detailed Solution for Test: Test of Fe2+ and Fe3+ - Question 6

When potassium thiocyanate (KSCN) is added to a solution containing Fe3+ ions, a deep red color is observed. This color change occurs due to the formation of a complex ion called iron(III) thiocyanate (Fe(SCN)3), which has a reddish-brown color.

Test: Test of Fe2+ and Fe3+ - Question 7
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Which of the following is NOT a characteristic of Fe3+ ions?
Detailed Solution for Test: Test of Fe2+ and Fe3+ - Question 7

Fe3+ ions do not exhibit a blue color in solution. They are typically pale yellow or orange-brown in color. Blue color in solution is associated with certain other transition metal ions like Cu2+.

Test: Test of Fe2+ and Fe3+ - Question 8
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Which of the following is a confirmatory test for the presence of Fe3+ ions?
Detailed Solution for Test: Test of Fe2+ and Fe3+ - Question 8

The potassium ferrocyanide test is a confirmatory test for the presence of Fe3+ ions. When potassium ferrocyanide is added to a solution containing Fe3+ ions, a deep blue precipitate of iron(III) ferrocyanide (Prussian blue) is formed.

Test: Test of Fe2+ and Fe3+ - Question 9
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The complex ion formed when Fe2+ ions react with potassium thiocyanate (KSCN) is:
Detailed Solution for Test: Test of Fe2+ and Fe3+ - Question 9

When Fe2+ ions react with potassium thiocyanate (KSCN), the complex ion formed is iron(II) thiocyanate, which is represented as Fe(SCN)2+. The Fe2+ ion combines with the SCN- ion to form this complex.

Test: Test of Fe2+ and Fe3+ - Question 10
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In the oxidation of Fe2+ ions to Fe3+ ions, the number of electrons gained by each Fe3+ ion is:
Detailed Solution for Test: Test of Fe2+ and Fe3+ - Question 10

In the oxidation of Fe2+ ions to Fe3+ ions, each Fe3+ ion gains 2 electrons. This process involves the transfer of electrons from Fe2+ to an oxidizing agent, resulting in the formation of Fe3+ ions.

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