Classification Of Elements And Periodicity In Properties MCQs With Answers – Part 5 (Class 11 Chemistry)
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Classification of Elements and Periodicity in Properties MCQs with Answers – Part 5 (Class 11 Chemistry)

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411. Consider the statements about hydrides and oxides as periodic indicators. I. Hydride formulae can reflect valency patterns. II. Oxide formulae can help infer oxidation state. III. Similar oxide and hydride formulae were useful in Mendeleev's grouping. IV. Hydride formulae always prove that two elements are isotopes. The supported statements are
ⓐ. I and IV only
ⓑ. I, II, and III only
ⓒ. II and IV only
ⓓ. I, II, III, and IV
412. A periodic-table note gives these formula patterns: group \(15\), \(\mathrm{H_3E}\); group \(16\), \(\mathrm{H_2E}\); group \(17\), \(\mathrm{HE}\). The decrease in the number of hydrogen atoms from group \(15\) to group \(17\) is mainly due to
ⓐ. increasing number of neutrons in hydrogen
ⓑ. loss of all valence electrons by hydrogen
ⓒ. decreasing number of electrons needed to complete the octet
ⓓ. conversion of all elements into metals
413. The table gives formula clues and their periodic meanings.
RowFormula cluePeriodic meaning
P\(\mathrm{MH}\) for an alkali metal hydrideMetal commonly forms \(M^+\)
Q\(\mathrm{H_2E}\) for a group \(16\) hydrideElement commonly has simple valency \(2\)
R\(\mathrm{EO_3}\) with oxygen as \(-2\)Element is in oxidation state \(+6\)
S\(\mathrm{HX}\) for a halogen hydrideHalogen has simple valency \(4\)
The row that needs correction is
ⓐ. Row S
ⓑ. Row P
ⓒ. Row Q
ⓓ. Row R
414. Read the short classification case.
Two unknown elements \(A\) and \(B\) form hydrides of the type \(\mathrm{AH_3}\) and \(\mathrm{BH_3}\). Their highest simple oxides are also of the same formula type. Their atomic masses are different, but their compounds show related formula patterns.
The strongest classification inference is that \(A\) and \(B\) probably
ⓐ. are the same isotope
ⓑ. must have equal atomic numbers
ⓒ. belong to the same chemical family or group
ⓓ. are unrelated because their atomic masses differ
415. Diagonal relationship refers to similarity between certain elements that are
ⓐ. diagonally adjacent in the periodic table, especially between period \(2\) and period \(3\)
ⓑ. in the same isotope series
ⓒ. always in the same vertical group only
ⓓ. arranged alphabetically beside each other
416. The pair that is a standard example of diagonal relationship is
ⓐ. \(\mathrm{Na}\) and \(\mathrm{K}\)
ⓑ. \(\mathrm{Li}\) and \(\mathrm{Mg}\)
ⓒ. \(\mathrm{F}\) and \(\mathrm{Cl}\)
ⓓ. \(\mathrm{Ne}\) and \(\mathrm{Ar}\)
417. Use the arrangement described below: \(\mathrm{Li}\) is placed in period \(2\), group \(1\); \(\mathrm{Be}\) in period \(2\), group \(2\); \(\mathrm{Mg}\) in period \(3\), group \(2\); and \(\mathrm{Al}\) in period \(3\), group \(13\). The diagonal pairs in this arrangement are
ⓐ. \(\mathrm{Li}\)-\(\mathrm{Mg}\) and \(\mathrm{Be}\)-\(\mathrm{Al}\)
ⓑ. \(\mathrm{Li}\)-\(\mathrm{Be}\) and \(\mathrm{Mg}\)-\(\mathrm{Al}\)
ⓒ. \(\mathrm{Li}\)-\(\mathrm{Al}\) and \(\mathrm{Be}\)-\(\mathrm{Mg}\)
ⓓ. \(\mathrm{Mg}\)-\(\mathrm{Be}\) only
418. The similarity in diagonal pairs such as \(\mathrm{Li}\)-\(\mathrm{Mg}\) is commonly explained by comparable
ⓐ. identical atomic number
ⓑ. charge/radius ratio and polarizing power
ⓒ. identical number of occupied shells
ⓓ. complete noble-gas configuration in the neutral atoms
419. A claim says, “Diagonal relationship is just the same as group similarity.” The best correction is that diagonal relationship
ⓐ. compares only isotopes of the same element
ⓑ. requires both elements to have the same group number
ⓒ. compares certain diagonally adjacent elements whose properties become similar due to balancing periodic trends
ⓓ. is based only on atomic mass equality
420. Assertion: \(\mathrm{Be}\) and \(\mathrm{Al}\) show diagonal relationship. Reason: They have exactly the same electronic configuration and the same atomic number.
ⓐ. Both Assertion and Reason are true, and Reason explains Assertion
ⓑ. Assertion is true, but Reason is false
ⓒ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓓ. Assertion is false, but Reason is true
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