Classification Of Elements And Periodicity In Properties MCQs
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Classification of Elements and Periodicity in Properties MCQs with Answers – Part 1 (Class 11 Chemistry)

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11. An element has the electronic distribution \(2,8,7\). For a representative element, the number of valence electrons is
ⓐ. \(2\)
ⓑ. \(8\)
ⓒ. \(17\)
ⓓ. \(7\)
12. Select the pair that is matched with the correct role in periodic-table vocabulary.
ⓐ. Atomic number \(Z\) — number of protons
ⓑ. Period — vertical column
ⓒ. Group — horizontal row
ⓓ. Valence shell — innermost filled shell
13. The table contains one reliable vocabulary entry. Select that entry.
RowTermGiven meaning
PPeriodVertical column in the periodic table
QGroupHorizontal row in the periodic table
RAtomic number \(Z\)Number of protons in the nucleus
SPeriodicityAbsence of any repeating property pattern
ⓐ. Row P
ⓑ. Row Q
ⓒ. Row S
ⓓ. Row R
14. Match the terms in Column I with their correct meanings in Column II.
Column IColumn II
P. Element symbol1. Short written representation of an element
Q. Atomic mass2. Mass value of an atom usually expressed in \(\text{u}\)
R. Period3. Horizontal row in the periodic table
S. Group4. Vertical column in the periodic table
ⓐ. P-1, Q-2, R-3, S-4
ⓑ. P-2, Q-1, R-3, S-4
ⓒ. P-1, Q-3, R-2, S-4
ⓓ. P-4, Q-2, R-3, S-1
15. A newly studied element is found in the same vertical column as elements with one outer-shell electron. The safest first prediction is that the new element may
ⓐ. have exactly the same atomic mass as the element above it
ⓑ. show related chemical behaviour due to a similar valence-shell pattern
ⓒ. have no connection with electronic configuration
ⓓ. be placed randomly because vertical position has no meaning
16. Consider the statements below. I. Elements in the same period must have identical chemical properties. II. Elements in the same group often have similar valence-shell patterns. III. The periodic table is only a storage chart and cannot help predict properties. The supported statement set is
ⓐ. I only
ⓑ. I and III only
ⓒ. II only
ⓓ. II and III only
17. A data card lists chlorine as \(\mathrm{Cl}\), \(Z=17\), and atomic mass about \(35.5\,\text{u}\). The value \(35.5\,\text{u}\) should be understood as
ⓐ. the number of protons in every chlorine atom
ⓑ. a mass value for chlorine atoms, not the same idea as atomic number
ⓒ. the number used to decide chlorine’s modern periodic-table position
ⓓ. the number of electrons in the outermost shell of chlorine
18. Use the arrangement described below: Element boxes are placed in rows and columns. Moving left to right along a row increases \(Z\) stepwise, while moving downward in one column keeps elements in the same family. This description identifies
ⓐ. rows as groups and columns as periods
ⓑ. rows as atomic masses and columns as symbols
ⓒ. rows as blocks and columns as atomic numbers
ⓓ. rows as periods and columns as groups
19. When the number of known elements increased, the direct study of every element one by one became difficult. The most scientific response to this difficulty was to
ⓐ. ignore elements with low abundance
ⓑ. use only atomic mass and reject chemical behaviour
ⓒ. arrange elements by similar properties and recurring patterns
ⓓ. divide elements only into solids, liquids, and gases
20. A set of elements contains \(\mathrm{Li}\), \(\mathrm{Na}\), \(\mathrm{K}\), \(\mathrm{F}\), \(\mathrm{Cl}\), and \(\mathrm{Br}\). A meaningful first grouping would place
ⓐ. \(\mathrm{Li}\), \(\mathrm{F}\), and \(\mathrm{Br}\) together because their symbols have two letters or fewer
ⓑ. \(\mathrm{Na}\), \(\mathrm{K}\), and \(\mathrm{Cl}\) together because they are common in salts
ⓒ. \(\mathrm{Li}\), \(\mathrm{Na}\), and \(\mathrm{K}\) together, and \(\mathrm{F}\), \(\mathrm{Cl}\), and \(\mathrm{Br}\) together
ⓓ. all six elements in one group because all are elements
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