Deck 8: Electron Configuration and Chemical Periodicity

A) [Kr]5s²5p⁶4d⁸
B) [Kr]5s²5d¹⁰5p⁴
C) [Kr]5s²4d¹⁰5p⁶
D) [Kr]5s²4f¹⁴
E) [Kr]5s²4d¹⁰5p⁴

A) 5, 1 , 0, -½
B) 5, 1, 0, ½
C) 5, 0, 1, ½
D) 5, 1, 1, ½
E) 5, 0, 0, -½

A) 1s²2s²2p⁶3s²3p⁴
B) 1s²2s²2p⁵3s¹3p⁴
C) 1s²2s²2p⁶3s²3p⁶3d¹⁰4s²
D) 1s²2s²2p⁶3s³3p⁴
E) 1s¹2s²2p⁶3s²3p⁴

A) Kr
B) Ni
C) Fe
D) Pd
E) None of these choices is correct.

A) 5, 2, -1, ½
B) 5, 2, 0, ½
C) 5, 1, 2, ½
D) 5, 1, 0, ½
E) 5, 2, 1, ½

A) In a given atom, 18 is the maximum number of electrons having principal quantum number n = 3.
B) The number of orbitals in a given f subshell is 7.
C) For n = 4, the largest possible value of l is 3.
D) For n = 4, the largest possible value of m_l is 2.
E) The following set of quantum numbers for a single orbital is not allowed: n = 3, l = 1, m_l = -2.

A) Larger nuclear charge lowers energy, more electrons in an orbital lowers energy.
B) Larger nuclear charge lowers energy, more electrons in an orbital increases energy.
C) Smaller nuclear charge lowers energy, more electrons in an orbital lowers energy.
D) Smaller nuclear charge lowers energy, more electrons in an orbital increases energy.
E) None of these statements is generally correct.

A) 3d
B) 4s
C) 4p
D) 4d
E) 5s

A) 9
B) 12
C) 18
D) 24
E) 36

A) n = 2; l = 1; m_l = -1; m_s = +½
B) n = 3; l = 0; m_l = 0 ; m_s = -½
C) n = 3; l = 2; m_l = -2; m_s = -½
D) n = 4; l = 0; m_l = 0 ; m_s = -½
E) n = 4; l = 2; m_l = 1 ; m_s = +½

A) 16
B) 18
C) 32
D) 36
E) None of these choices is correct.

A) shielding.
B) penetration.
C) paramagnetism.
D) electron-pair repulsion.
E) relativity.

A) n and l
B) n and m_l
C) l and m_l
D) n and m_s
E) n, l and m_l

A) [Ar]4s²3d⁹
B) [Ar]4s¹3d¹⁰
C) [Ar]4s²4p⁶3d³
D) [Ar]4s²4d⁹
E) [Ar]5s²4d⁹

A) In the hydrogen atom, the energy of an orbital depends only on the value of the quantum number n.
B) In many-electron atoms the energy of an orbital depends on both n and l.
C) Inner electrons shield outer electrons more effectively than do electrons in the same orbital.
D) The splitting of sublevels in many-electron atoms is explained in terms of the penetration effect.
E) The energy of a given orbital increases as the nuclear charge Z increases.

A) the aufbau principle.
B) the Pauli exclusion principle.
C) Hund's rule.
D) the periodic law.
E) Heisenberg's principle.

A) 2
B) 3
C) 5
D) 10
E) 15

A) 1s²1p⁶2s²2p⁶
B) 1s²2s²2p⁸3s²3p⁴
C) 1s²2s²2p⁸3s²3p²
D) 1s²2s²2p⁶3s²3p⁴
E) 1s²2s²2p⁶3s²3d⁴

A) the aufbau principle.
B) Hund's rule.
C) the Pauli exclusion principle.
D) the periodic law.
E) the singularity rule.

A) the first valence electron is removed.
B) the second valence electron is removed.
C) the eighth electron of is removed.
D) the first core electron is removed.
E) the last valence electron is removed.

A) X(g) $\rightarrow$ X⁺(g) + e^¯
B) X⁺(g) $\rightarrow$ X⁺(aq)
C) X⁺(g) + e^¯ $\rightarrow$ X(g)
D) X(g) + e^¯ $\rightarrow$ X^¯(g)
E) X⁺(g) + Y^¯(g) $\rightarrow$ XY(s)

A) 2
B) 6
C) 8
D) 10
E) None of these choices is correct.

A) Rb
B) Mg
C) I
D) As
E) F

A) [Ne]3s¹3p¹
B) [He]2s¹2p³
C) [Ne]3s²3p²3d¹
D) [Ne]3s²3p³3d¹
E) [Ne]3s²3p³

A) Li
B) Ne
C) Rb
D) Sr
E) Xe

A) Li
B) B
C) O
D) Ne
E) None of these choices is correct.

A) K
B) Ti
C) Cu
D) Ge
E) Kr

A) Na
B) Ar
C) K
D) Ca
E) Kr

A) Na
B) Cl
C) Ca
D) Te
E) Br

A) Li
B) B
C) O
D) F
E) Na

A) O, S, Se, Te, Po
B) N, P, As, Sb, Bi
C) F, Cl, Br, I, At
D) C, Si, Ge, Sn, Pb
E) Ti, Zr, Hf

A) lower left
B) upper left
C) center
D) lower right
E) upper right

A) X(s) $\rightarrow$ X⁺(g) + e^¯
B) X₂(g) $\rightarrow$ X⁺(g) + X^¯(g)
C) X(g) + e^¯ $\rightarrow$ X^¯(g)
D) X^¯(g) $\rightarrow$ X(g) + e^¯
E) X(g) $\rightarrow$ X⁺(g) + e^¯

A) 1s²2s²2p⁶3s²3p⁶3d¹⁰4s¹4p¹
B) 1s²2s²2p⁶3s¹3p⁵
C) 1s²2s²2p⁶3s²3p²3d²
D) 1s²2s²2p⁶3s²3p⁶3d¹⁰4s²
E) 1s²2s²2p⁶3s²3p⁶3d¹⁰4s¹⁴p³

A) H
B) Li
C) C
D) F
E) Ne

A) S
B) Ca
C) Ba
D) Po
E) Rn

A) all of the electrons after the [Ar]
B) only the 4s² electrons
C) only the 3d¹⁰ electrons
D) only the 4p⁴ electrons
E) both the 4s² and the 4p⁴ electrons

A) [He]2s²2p⁵
B) [Ne]3s²3p¹
C) [Ar]4s¹4p¹
D) [Kr]5s²4d⁷
E) [He]1p¹

A) Li
B) Ne
C) Rb
D) Sr
E) Xe

A) upper right
B) upper left
C) center
D) lower right
E) lower left

A) Se⁶⁺
B) Se⁴⁺
C) Se²⁺
D) Se^2¯
E) Se^4¯

A) H
B) Li
C) Na
D) K
E) Rb

A) P^3¯ > Cl^¯ > K⁺ > Ca²⁺
B) Ca²⁺ > K⁺ > Cl^¯ > P^3¯
C) K⁺ > Cl^¯ > Ca²⁺ > P^3¯
D) K⁺ > Cl^¯ > P^3¯ > Ca²⁺
E) None of these choices is correct.

A) Bi₂O₃
B) SiO₂
C) Cs₂O
D) Na₂O
E) H₂O

A) Kr
B) Zn
C) Sr
D) V
E) Ar

A) Cu⁺
B) Ag⁺
C) Fe³⁺
D) Cd²⁺
E) Ca²⁺

A) elements with very negative electron affinities.
B) elements with low ionization energies.
C) elements with small atomic radii.
D) elements with unpaired electrons.
E) elements with partially filled p orbitals.

A) upper right
B) upper left
C) center
D) lower right
E) lower left

A) SO₂
B) Al₂O₃
C) CaO
D) PbO
E) H₂O

A) Cu²⁺
B) Ni²⁺
C) Cr³⁺
D) Sc³⁺
E) Cr²⁺

A) Si
B) Sr
C) Ga
D) Cs
E) S

A) Sn
B) Sr
C) Tl
D) Ge
E) Ga

A) A^2¯ > B^¯ > C > D⁺ > E²⁺
B) E²⁺ > D⁺ > C > B^¯ > A^2¯
C) A^2¯ > B^¯ > C < D⁺ < E²⁺
D) A^2¯ < B^¯ < C > D⁺ > E²⁺
E) None of these choices is correct.

A) Li
B) Ca
C) Al
D) Pb
E) Cs

A) low, very negative
B) high, positive or slightly negative
C) low, positive or slightly negative
D) high, very negative
E) None of these choices is generally correct.

A) Cr
B) Ru
C) Fe
D) Pt
E) Cd

A) low, very negative
B) high, positive or slightly negative
C) low, positive or slightly negative
D) high, very negative
E) None of these choices is generally correct.