Class 11 Chemistry MCQs | 100 Questions | Classification & Periodicity
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Classification of Elements and Periodicity in Properties MCQs with Answers – Part 4 (Class 11 Chemistry)

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301. Electron gain enthalpy is the enthalpy change when
ⓐ. an electron is removed from an isolated gaseous atom to form a gaseous cation
ⓑ. an electron is added to an isolated gaseous atom to form a gaseous anion
ⓒ. a solid atom is converted into a liquid atom
ⓓ. a neutron is added to the nucleus of an atom
302. The process that represents first electron gain enthalpy of an element \(X\) is
ⓐ. \(\mathrm{X(g)+e^- \rightarrow X^-(g)}\)
ⓑ. \(\mathrm{X(g) \rightarrow X^+(g)+e^-}\)
ⓒ. \(\mathrm{X^-(g) \rightarrow X(g)+e^-}\)
ⓓ. \(\mathrm{X(s) \rightarrow X(g)}\)
303. For many non-metal atoms, the first electron gain enthalpy is negative because
ⓐ. energy is released when the incoming electron is attracted by the nucleus
ⓑ. energy must always be supplied to force the electron into the nucleus
ⓒ. the atom loses an electron before gaining one
ⓓ. the number of protons becomes zero after electron gain
304. The second electron gain enthalpy for an atom is usually positive because the second electron is added to
ⓐ. a neutral atom with no electron-electron repulsion
ⓑ. an already negatively charged ion, causing strong repulsion
ⓒ. a bare nucleus without any electrons
ⓓ. a noble gas that has lost its shell
305. Halogens have highly negative first electron gain enthalpy mainly because halogen atoms
ⓐ. have completely filled \(d\)-subshells as the only active feature
ⓑ. are very large metals with one valence electron
ⓒ. need one electron to complete a stable octet
ⓓ. already have no attraction for electrons
306. Across a period from left to right, electron gain enthalpy generally becomes more negative because
ⓐ. atomic number decreases steadily
ⓑ. a new shell is added at every step
ⓒ. metallic character increases continuously
ⓓ. effective nuclear charge increases and atoms more strongly attract an added electron
307. Down a group, electron gain enthalpy generally becomes less negative because
ⓐ. the added electron enters a larger, more shielded shell farther from the nucleus
ⓑ. atomic size always decreases sharply
ⓒ. nuclear charge becomes zero
ⓓ. the added electron enters the nucleus
308. A graph of first electron gain enthalpy across a period is described below.
The x-axis shows increasing atomic number across a period. The y-axis shows electron gain enthalpy. The values generally move downward into more negative values as the halogen region is approached, but the noble gas value rises sharply to a positive region.
The sharp rise for the noble gas is best explained by
ⓐ. noble gases have only one valence electron
ⓑ. noble gases have the lowest nuclear charge in every period
ⓒ. addition of an electron to a stable closed shell is unfavourable
ⓓ. noble gases are placed in group \(1\)
309. Chlorine has a more negative first electron gain enthalpy than fluorine because
ⓐ. fluorine has no attraction for electrons
ⓑ. the incoming electron in fluorine enters a very small \(2p\) shell with strong electron-electron repulsion
ⓒ. chlorine has fewer occupied shells than fluorine
ⓓ. chlorine is a noble gas with a complete octet
310. A correct comparison of first electron gain enthalpy is
ⓐ. \(\mathrm{Ne}\) is more negative than \(\mathrm{F}\)
ⓑ. \(\mathrm{Na}\) is more negative than \(\mathrm{Cl}\)
ⓒ. \(\mathrm{Ar}\) is more negative than \(\mathrm{Cl}\)
ⓓ. \(\mathrm{Cl}\) is more negative than \(\mathrm{F}\)
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