CLASSIFICATION OF ELEMENTS AND PERIODICITY IN PROPERTIES-Objective Questions for Entrance Exams

These MCQs are designed to strengthen conceptual clarity and exam readiness for NCERT Class XI Chemistry – Chapter 3: Classification of Elements and Periodicity in Properties. Carefully modelled on the recurring patterns of JEE (Main/Advanced), NEET, AIIMS, BITSAT, KVPY, Olympiads, and State Engineering Examinations, this collection emphasizes core periodic trends such as atomic and ionic radii, ionisation enthalpy, electron affinity, electronegativity, oxidation states, diagonal relationships, and anomalous behaviour. Each question is supported with a precise explanation to reinforce NCERT fundamentals while developing analytical thinking required for competitive exams. The set progresses logically from basic trend identification to application-based reasoning, making it equally useful for revision, self-assessment, and mock practice. Students are encouraged to focus not only on answers but also on the underlying principles, ensuring long-term retention and improved problem-solving accuracy across chemistry entrance examinations.

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Chemistry

CLASSIFICATION OF ELEMENTS AND PERIODICITY IN PROPERTIES-Objective Questions for Entrance Exams

Ent-Exam-Mcqs • Feb 2026

These MCQs are designed to strengthen conceptual clarity and exam readiness for NCERT Class XI Chemistry – Chapter 3: Classification of Elements and...

Continue Reading →
Ent-Exam-Mcqs
Chemistry

CLASSIFICATION OF ELEMENTS AND PERIODICITY IN PROPERTIES-Exercises

Exercise • Feb 2026

The solutions presented in this section are designed to help Class XI students develop a clear and logical understanding of NCERT Chemistry Chapter 3,...

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Exercise

CLASSIFICATION OF ELEMENTS AND PERIODICITY IN PROPERTIES

by Academia Aeternum

1. Which element has the highest first ionisation enthalpy among the following?
(Exam: IIT-JEE Year: 1998)
2. Correct order of atomic radii is:
(Exam: NEET Year: 2016)
3. Which species has maximum size?
(Exam: AIIMS Year: 2014)
4. Which element shows maximum electron affinity?
(Exam: JEE Main Year: 2019)
5. The most electronegative element is:
(Exam: KVPY Year: 2017)
6. Correct order of first ionisation energy:
(Exam: BITSAT Year: 2015)
7. Which pair exhibits diagonal relationship?
(Exam: IIT-JEE Year: 2003)
8. Element with configuration \(1s^2 2s^2 2p^6 3s^2\) belongs to:
(Exam: NEET Year: 2020)
9. Maximum oxidation state of Mn is:
(Exam: IIT-JEE Year: 2001)
10. Which is strongest reducing agent?
(Exam: NEET Year: 2018)
11. Order of metallic character:
(Exam: State CET Year: 2019)
12. Largest anion:
(Exam: AIIMS Year: 2013)
13. Which has highest second ionisation energy?
(Exam: JEE Advanced Year: 2014)
14. Noble gases have zero electron affinity because:
(Exam: NEET Year: 2017)
15. Most basic oxide:
(Exam: IIT-JEE Year: 1997)
16. Smallest cation:
(Exam: KVPY Year: 2018)
17. Which shows anomalous behaviour?
(Exam: NEET Year: 2015)
18. Highest covalent character in M–Cl:
(Exam: IIT-JEE Year: 2005)
19. Atomic radius increases:
(Exam: BITSAT Year: 2016)
20. Which has highest lattice energy?
(Exam: JEE Main Year: 2021)
21. The correct order of ionic radii is:
(Exam: JEE Main Year: 2020)
22. The element with highest electron gain enthalpy in Group 17 is:
(Exam: NEET Year: 2019)
23. Which element has highest electronegativity in Period 3?
(Exam: AIIMS Year: 2012)
24. Which oxide is amphoteric?
(Exam: IIT-JEE Year: 2004)
25. Order of increasing first ionisation enthalpy:
(Exam: State CET Year: 2018)
26. The smallest atom in Period 2 is:
(Exam: KVPY Year: 2016)
27. Maximum covalent character is shown by:
(Exam: JEE Advanced Year: 2013)
28. The most metallic element among:
(Exam: NEET Year: 2021)
29. Which has maximum hydration enthalpy?
(Exam: IIT-JEE Year: 1999)
30. Which shows highest second ionisation enthalpy?
(Exam: NEET Year: 2017)
31. The correct order of electron affinity:
(Exam: BITSAT Year: 2018)
32. Which pair has similar properties?
(Exam: IIT-JEE Year: 2002)
33. Highest oxidation state of Cl is:
(Exam: NEET Year: 2016)
34. The most reactive alkali metal is:
(Exam: State CET Year: 2020)
35. Which has highest effective nuclear charge?
(Exam: JEE Main Year: 2019)
36. Acidic character of oxides increases:
(Exam: NEET Year: 2015)
37. Which element has valency 3 in Period 3?
(Exam: IIT-JEE Year: 2006)
38. The correct order of size:
(Exam: NEET Year: 2018)
39. The most electronegative element in Group 16:
(Exam: AIIMS Year: 2013)
40. Which period has maximum number of elements?
(Exam: JEE Advanced Year: 2015)
41. The shielding effect increases:
(Exam: NEET Year: 2019)
42. Which has highest ionisation enthalpy?
(Exam: IIT-JEE Year: 2007)
43. The most basic hydroxide:
(Exam: NEET Year: 2014)
44. Which element shows maximum non-metallic character?
(Exam: BITSAT Year: 2017)
45. Highest melting point in Period 3:
(Exam: IIT-JEE Year: 2000)
46. Which is strongest oxidising agent?
(Exam: NEET Year: 2020)
47. Atomic radius trend in Group 2:
(Exam: State CET Year: 2017)
48. Which has highest electron affinity among Period 2?
(Exam: JEE Main Year: 2022)
49. The correct order of metallic character:
(Exam: NEET Year: 2018)
50. The element with configuration \( [Ne] 3s^2 3p^5 \) belongs to:
(Exam: IIT-JEE Year: 1996)

Frequently Asked Questions

It is the systematic arrangement of elements so that similar properties recur periodically with atomic number.

The properties of elements are periodic functions of their atomic numbers \(Z\).

The modern periodic table is based on Moseley’s atomic number concept.

There are 7 horizontal periods.

There are 18 vertical groups.

It is the number of protons in the nucleus, denoted by \(Z\).

Regular repetition of properties after fixed intervals of atomic number.

Elements belonging to groups 1, 2, and 13–18.

Elements of d-block (groups 3–12).

f-block elements: lanthanoids and actinoids.

\(Z_{eff}=Z-\sigma\)

Half the distance between nuclei of two bonded atoms.

Decreases left to right.

Increases top to bottom.

Energy required to remove outermost electron from gaseous atom.

\(X(g)\rightarrow X^+(g)+e^-\)

It increases.

It decreases.

Energy change when electron is added to gaseous atom.

Chlorine.

Tendency of atom to attract shared electrons.

Pauling scale.

Increases.

Decreases.

Combining capacity of an element.

Usually -1 or +1.

Tendency to lose electrons.

Decreases.

Increases.

Inner electrons reduce attraction between nucleus and valence electrons.

s<p<d<f

Volume occupied by one mole of atoms.

Similarity between elements diagonally placed (e.g. Li–Mg).

They have stable electronic configuration \(ns^2np^6\).

\(1s^22s^22p^6\)

Species having same number of electrons.

\(O^{2-},F^-,Ne,Na^+,Mg^{2+}\)

Apparent charge assigned to atom in compound.

6

Systematic variations of properties with atomic number.

Deviation of first element from group trend.

Small size and high charge density.

Half distance between nuclei of bonded atoms.

Radius of ion in crystal lattice.

Na is larger than Na+.

Cl- is larger than Cl.

Higher positive charge ? smaller radius.

Groups 1 and 2 elements.

Groups 13–18 elements.

Division based on subshell being filled.

Gradual decrease in size from La to Lu.

Poor shielding of 4f electrons.

Predicts properties of unknown elements.

Ionization enthalpy and electronegativity.

Small size causes repulsion in F.

Fluorine.

Horizontal row.

Vertical column.

Cs (practically).

Helium.

Helium.

d-block.

Aufbau principle: filling by increasing energy.

\(1s<2s<2p<3s<3p<4s<3d\)

Lower energy due to penetration.

It organizes trends for prediction and synthesis.

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