Class 11 Chemistry MCQs | Again 100 Q&A | Classification & Periodicity
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Classification of Elements and Periodicity in Properties MCQs with Answers – Part 2 (Class 11 Chemistry)

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101. The modern periodic law states that the physical and chemical properties of elements are periodic functions of their
ⓐ. atomic masses
ⓑ. neutron numbers only
ⓒ. atomic numbers
ⓓ. discovery dates
102. The phrase “periodic function of atomic number” means that when elements are arranged in increasing \(Z\),
ⓐ. their atomic masses become equal after every period
ⓑ. their properties repeat in a regular pattern after certain intervals
ⓒ. every neighbouring pair has identical chemical properties
ⓓ. neutron number becomes the only deciding factor
103. If a neutral atom has \(Z=11\), it contains \(11\) electrons arranged as \(2,8,1\). The most useful conclusion for modern periodic classification is that this atom
ⓐ. must be placed only by its average atomic mass
ⓑ. has no connection between \(Z\) and chemical properties
ⓒ. must have the same properties as every element with \(11\) neutrons
ⓓ. has one valence electron and can be placed with elements having a similar outer-shell pattern
104. The change from Mendeleev's periodic law to the modern periodic law is best represented as
ⓐ. properties depend periodically on atomic mass \(\rightarrow\) properties depend periodically on atomic number
ⓑ. properties depend periodically on atomic number \(\rightarrow\) properties depend periodically on atomic mass
ⓒ. properties depend on alphabetical order \(\rightarrow\) properties depend on discovery date
ⓓ. properties depend on physical state only \(\rightarrow\) properties depend on colour only
105. A pair of isotopes has the same \(Z\) but different mass numbers. The modern periodic law places them in the same position because
ⓐ. their atomic masses are exactly equal
ⓑ. their atomic numbers and ordinary electronic configurations are the same
ⓒ. isotopes are always placed in different groups
ⓓ. neutron number decides group number directly
106. A graph is described as follows.
The x-axis shows increasing atomic number \(Z\). The y-axis shows a property that rises and falls in a repeating pattern as new periods begin and end.
The graph description is best interpreted as showing
ⓐ. periodic variation of a property with atomic number
ⓑ. random variation unrelated to classification
ⓒ. equality of atomic masses in each group
ⓓ. a fixed value of every chemical property
107. Consider the statements below. I. Modern periodic law uses atomic number as the basis. II. The repetition of properties is connected with recurrence of similar valence-shell configurations. III. Isotopes require separate positions in the modern periodic table because their masses differ. IV. Atomic number is linked with nuclear charge. The supported statements are
ⓐ. I and III only
ⓑ. II and III only
ⓒ. I, II, and IV only
ⓓ. I, II, III, and IV
108. The table gives two neutral atoms with their electronic distributions.
AtomAtomic numberElectronic distribution
P\(3\)\(2,1\)
Q\(11\)\(2,8,1\)
The reason these atoms show related group behaviour is that both
ⓐ. have the same total number of electrons
ⓑ. have the same atomic mass
ⓒ. contain the same number of occupied shells
ⓓ. have one electron in the outermost shell
109. Assertion: Atomic number is a better basis than atomic mass for the modern periodic table. Reason: Atomic number determines the electronic configuration of a neutral atom, and electronic configuration strongly influences chemical properties.
ⓐ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓑ. Assertion is true, but Reason is false
ⓒ. Both Assertion and Reason are true, and Reason explains Assertion
ⓓ. Assertion is false, but Reason is true
110. A neutral element \(X\) has \(Z=9\), and another neutral element \(Y\) has \(Z=17\). Their electronic distributions are \(2,7\) and \(2,8,7\), respectively. The modern periodic-table reason for their similarity is
ⓐ. both have the same number of shells
ⓑ. both have \(7\) valence electrons
ⓒ. both have equal atomic masses
ⓓ. both have \(17\) protons

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