In Class 11 Final Exams there will be Case studies and Passage Based Questions will be asked, So practice these types of questions. Study Rate is always there to help you. Free PDF Downloads of CBSE Class 11 Chemistry Chapter 3 Case Study and Passage-Based Questions with Answers were Prepared Based on the Latest Exam Pattern. Students can solve Class 11 Chemistry Case Study Questions Classification of Elements and Periodicity in Properties to know their preparation level.

In CBSE Class 11 Chemistry Paper, There will be a few questions based on case studies and passage-based as well. In that, a paragraph will be given, and then the MCQ questions based on it will be asked.

Classification of Elements and Periodicity in Properties Case Study Questions With Answers

Here, we have provided case-based/passage-based questions for Class 11 Chemistry Chapter 3 Classification of Elements and Periodicity in Properties

Case Study/Passage-Based Questions

Case Study 1: We must bear in mind that when Mendeleev developed his Periodic Table, chemists knew nothing about the internal structure of atoms. However, the beginning of the 20th century witnessed profound developments in theories about sub-atomic particles. In 1913, the English physicist, Henry Moseley observed regularities in the characteristic X-ray spectra of the elements. A plot of ν (whereν is the frequency of X-rays emitted) against the atomic number (Z ) gave a straight line and not the plot of ν vs atomic mass. He thereby showed that the atomic number is a more fundamental property of an element than its atomic mass. Mendeleev’s Periodic Law was, therefore, accordingly modified. This is known as the Modern Periodic Law and can be stated as: The physical and chemical properties of the elements are periodic functions of their atomic numbers. Numerous forms of Periodic Table have been devised from time to time. Some forms emphasize chemical reactions and valence, whereas others stress the electronic configuration of elements. A modern version, the so-called “long form” of the Periodic Table of the elements, is the most convenient and widely used. The horizontal rows (which Mendeleev called series) are called periods and the vertical columns, are groups. Elements having similar outer electronic configurations in their atoms are arranged in vertical columns, referred to as groups or families. According to the recommendation of the International Union of Pure and Applied Chemistry (IUPAC), the groups are numbered from 1 to 18 replacing the older notation of groups IA … VIIA, VIII, IB … VIIB, and 0. There are altogether seven periods. The period number corresponds to the highest principal quantum number (n) of the elements in the period. The first period contains 2 elements. The subsequent periods consist of 8, 8, 18, 18, and 32 elements, respectively. The seventh period is incomplete and like the sixth period would have a theoretical maximum (on the basis of quantum numbers) of 32 elements. In this form of the Periodic Table, 14 elements of both the sixth and seventh periods (lanthanoids and actinoids, respectively) are placed in separate panels at the bottom. the IUPAC has made a recommendation that until a new element’s discovery is proved, and its name is officially recognized, a systematic nomenclature be derived directly from the atomic number of the element using the numerical roots for 0 and numbers 1-9. The roots are put together in order of digits which make up the atomic number and “mum” is added at the end. Groupwise Electronic Configurations Elements in the same vertical column or group have similar valence shell electronic configurations, the same number of electrons in the outer orbitals, and similar properties. the theoretical foundation for periodic classification. The elements in a vertical column of the Periodic Table constitute a group or family and exhibit similar chemical behavior. This similarity arises because these elements have the same number and the same distribution of electrons in their outermost orbitals. We can classify the elements into four blocks viz., s-block, p-block, d-block, and f-block depending on the type of atomic orbitals that are being filled with electrons. Two exceptions to this categorization. Strictly, helium belongs to the s-block but its positioning in the p-block along with other group 18 elements is justified because it has a completely filled valence shell (1s) and as a result, exhibits properties characteristic of other noble gases. The other exception is hydrogen. It has only one s-electron and hence can be placed in group 1 (alkali metals). It can also gain an electron to achieve a noble gas arrangement and hence it can behave similarly to a group 17 (halogen family) elements. Because it is a special case, we shall place hydrogen separately at the top of the Periodic Table.

1) In 1913, the English physicist, ….observed regularities in the characteristic X-ray spectra of the elements.

• a) Johann Dobereiner
• b) John Alexander Newlands
• c) Demitri Mendeleev
• d) Henry Moseley

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2) Horizontal row in periodic table called ..

• a) Group
• b) Period
• c) Triad
• d) Octave

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3) Vertical Column in periodic table called ..

• a) Group
• b) Period
• c) Triad
• d) Octave

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4) According to Modern Periodic Law the physical and chemical properties of the elements are periodic functions of their ….

• a) Atomic mass
• b) Atomic numbers
• c) Atomic structure
• d) Atomic size

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5) What is IUPAC name of element having atomic number 107.

• a) Unnilpentium
• b) Unnilhexium
• c) Unnilseptium
• d) Unniloctium

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What is the significance of Heisenberg’s Uncertainty Principle?
A) It predicts the exact position and momentum of an electron.
B) It rules out definite paths of electrons and leads to probability statements.
C) It supports Bohr’s model of the hydrogen atom.
D) It describes the structure of the nucleus.

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Which quantum number defines the shape of an orbital?
A) Principal Quantum Number (n)
B) Azimuthal Quantum Number (l)
C) Magnetic Quantum Number (m₁)
D) Spin Quantum Number (mₛ)

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Why did the Bohr model fail to describe the structure of atoms?
A) It ignored the gravitational force.
B) It contradicted the Heisenberg Uncertainty Principle.
C) It focused only on atomic nuclei.
D) It only described non-hydrogen atoms.

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