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Grade 11 Exam  >  Grade 11 Tests  >  Chemistry for Grade 11 (IGCSE)  >  Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Grade 11 MCQ

Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Grade 11 MCQ


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15 Questions MCQ Test Chemistry for Grade 11 (IGCSE) - Test: Group VII Displacement Reactions & Transition Elements & Noble Gases

Test: Group VII Displacement Reactions & Transition Elements & Noble Gases for Grade 11 2024 is part of Chemistry for Grade 11 (IGCSE) preparation. The Test: Group VII Displacement Reactions & Transition Elements & Noble Gases questions and answers have been prepared according to the Grade 11 exam syllabus.The Test: Group VII Displacement Reactions & Transition Elements & Noble Gases MCQs are made for Grade 11 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases below.
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Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 1
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Which halogen is the most reactive among chlorine, bromine, and iodine?

Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 1
Among chlorine, bromine, and iodine, chlorine is the most reactive halogen. This reactivity trend aligns with the general trend in Group VII non-metals, where reactivity increases as you move up the group. Chlorine's high reactivity has significant implications in various chemical reactions and applications.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 2
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Explain the concept of halogen displacement reactions in Group VII chemistry.

Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 2
Halogen displacement reactions in Group VII chemistry involve the displacement of a less reactive halogen by a more reactive halogen. This occurs when a halogen higher in the reactivity series displaces a halogen lower in the series from a solution of its salt. Understanding this concept is crucial for predicting and explaining various chemical reactions.
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Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 3
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How does the reactivity of halogens change as you move up the Group VII elements?

Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 3
The reactivity of halogens increases as you move up the Group VII elements. This means that elements higher in the group are more reactive than those lower in the group. For example, chlorine is more reactive than bromine or iodine. This trend is essential to consider when studying the properties and behaviors of halogens.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 4
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What happens in a halogen displacement reaction according to the reactivity series?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 4
In a halogen displacement reaction according to the reactivity series, less reactive halogens are displaced by more reactive halogens. This principle is based on the relative reactivity of halogens, where a higher-reactive halogen can displace a lower-reactive halogen from a solution of its salt. Understanding this concept is fundamental in predicting and explaining chemical reactions involving halogens.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 5
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In halogen displacement reactions, why does mixing chlorine solution with a clear potassium bromide solution result in the solution turning orange?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 5
When chlorine solution is mixed with a clear potassium bromide solution, the solution turns orange due to the formation of bromine. This occurs because chlorine, positioned above bromine in Group VII, exhibits greater reactivity, leading to the displacement of bromine from the bromide solution. The orange color indicates the presence of bromine in the solution.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 6
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What color change occurs when magnesium iodide is treated with bromine in a displacement reaction, as per the details provided?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 6
When magnesium iodide is treated with bromine in a displacement reaction, the color of the solution changes to brown. This color change is indicative of the production of iodine as a result of the displacement reaction. Bromine, being more reactive than iodine, displaces iodine from the magnesium iodide solution, leading to the formation of magnesium bromide and elemental iodine.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 7
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Which property of transition elements makes them valuable for use as catalysts in industrial processes?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 7
Transition elements are frequently employed as catalysts in industrial processes due to their ability to exhibit multiple oxidation states. This characteristic allows them to participate in various reaction mechanisms and enhance reaction rates. For example, catalysts like platinum or rhodium, which are transition elements, are utilized in catalytic converters in vehicles to reduce harmful emissions.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 8
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What property of transition elements allows them to exhibit multiple oxidation numbers in compounds?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 8
Transition elements can exhibit multiple oxidation numbers in compounds due to their capacity to shed varying numbers of electrons depending on their chemical surroundings. This unique property allows transition elements to form compounds in diverse oxidation states, leading to distinct properties and colors in these compounds.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 9
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How do transition elements contribute to the field of medicine and surgical procedures?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 9
Transition elements contribute to medicine and surgical procedures by facilitating bone bonding in joint replacements. For instance, titanium, a transition element known for its high biocompatibility, is utilized in orthopedic implants such as joint replacements. This property of transition elements aids in the successful integration of artificial implants with natural bone tissue.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 10
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Which characteristic of transition elements makes them suitable as catalysts in chemical reactions?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 10
Transition elements are suitable as catalysts in chemical reactions due to their ability to transition between various oxidation states. This unique feature allows transition elements to readily participate in redox reactions by accepting and donating electrons, making them effective catalysts for a wide range of chemical processes.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 11
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What role do transition elements primarily play in the production of colored compounds for dyes, paints, and stained glass jewelry?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 11
Transition elements primarily contribute to the production of colored compounds for dyes, paints, and stained glass jewelry by imparting coloration to the compounds. The presence of transition elements in these compounds leads to the absorption and emission of specific wavelengths of light, resulting in the vibrant colors observed in various products like dyes, paints, and stained glass.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 12
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What is the defining characteristic of noble gases that contributes to their inertness and lack of reactivity in chemical reactions?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 12
The defining characteristic of noble gases that leads to their inertness and lack of reactivity in chemical reactions is the presence of full outer electron shells. This stability is a result of having all the outer electron orbitals filled, making them less likely to gain or lose electrons. This property makes noble gases extremely unreactive under normal conditions.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 13
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Among the noble gases, which element has the electronic configuration 2,8,18,8?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 13
The noble gas with the electronic configuration 2,8,18,8 is Xenon. Xenon is located in the periodic table and possesses this specific electron configuration in its outermost shell. This configuration contributes to its stability and inert nature, making it a part of the noble gases group.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 14
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How many electrons are present in the outermost shell of Neon?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 14
Neon has 2 electrons in its outermost shell. This gives it a complete octet, making it stable and chemically unreactive. The presence of a full outer shell of electrons is a characteristic feature of noble gases, including Neon.
Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 15
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Why are noble gases classified as non-metals?
Detailed Solution for Test: Group VII Displacement Reactions & Transition Elements & Noble Gases - Question 15
Noble gases are classified as non-metals primarily because they possess complete outer electron shells. This characteristic sets them apart from metals, which tend to lose electrons to achieve stability. The full outer electron shells of noble gases contribute to their inertness and non-reactive nature, defining them as non-metals in the periodic table.
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