Question 1

An element that has the valence electron configuration 5s²4d⁵ belongs to which period and group? A)period 4; group 8 B)period 5; group 9 C)period 5; group 7 D)period 5; group 3 E)period 5; group 13

Accepted Answer

The valence electron configuration given suggests that the element has 5 electron shells (belonging to period 5), and 7 valence electrons (5s1 2P1 3s1 3P0 4d1 4P1), placing it in group 7.

Question 2

An element that has the valence electron configuration 5s²5p³ belongs to which period and group? A)period 5; group 15 B)period 5; group 2 C)period 5; group 3 D)period 5; group 5 E)period 4; group 13

Accepted Answer

The valence electron configuration indicates that this element has 5 valence electrons in the 5s and 5p orbitals, with one electron in the 5s, three electrons in the 5p, and one electron in the 5s2 orbital. This corresponds to group 15 (also known as group V) of the periodic table, which contains elements with 5 valence electrons, such as nitrogen and phosphorus. Additionally, the fact that this element is found in period 5 means that it has 5 energy levels.

Question 3

An element that has the valence electron configuration 2s²2p² belongs to which period and group? A)period 1; group 18 B)period 2; group 12 C)period 2; group 4 D)period 2; group 14 E)period 2; group 8

Accepted Answer

The valence electron configuration given indicates that there are 2 electrons in the 2s orbital, 1 electron in the 2p orbital, and 3 electrons in the 3p orbital. This means that the element is in period 2, since the highest energy level (n = 2) has electrons. Additionally, the element has 4 valence electrons, which puts it in group 14, since group 14 elements have 4 valence electrons. The correct option is D) period 2; group 14.

Question 4

Identify the number of valence electrons for Cd.&#10;A)8&#10;B)10&#10;C)12&#10;D)2&#10;E)6

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Question 5

An element that has the valence electron configuration 6s²5d⁴ belongs to which period and group? A)period 6; group 16 B)period 6; group 12 C)period 6; group 4 D)period 6; group 6 E)period 6; group 2

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Question 6

Identify the ground-state electron configuration for Cd. A)[Kr]5s²5d¹⁰ B)[Kr]5s²4d¹⁰5p² C)[Kr]4d¹⁰ D)[Kr]5s²4d⁸ E)[Kr]5s²4d¹⁰

Accepted Answer

The electron configuration of Cd starts with the noble gas configuration of [Kr]. It then fills the 5s orbital before moving on to the 4d orbital. The 4d orbital is filled according to Hund's rule, with one electron in each orbital before any orbital is filled with a second electron, giving us the subshell notation 4d10. The final configuration, therefore, is [Kr]5s2 4d10. Among the choices given, only option E matches this configuration.

Question 7

Identify the ground-state electron configuration for Se. A)[Ar]4s²3d¹⁰4p⁴ B)[Ar]4s²4d¹⁰4p⁴ C)[Ar]4s²3d¹⁰^4p⁶ D)[Ar]4s²3d¹⁰ E)[Ar]3d¹⁰4p⁴

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Question 8

Identify the number of valence electrons for Pb.&#10;A)4&#10;B)2&#10;C)28&#10;D)12&#10;E)26

Accepted Answer

Lead (Pb) is in group 14 of the periodic table, which means it has 4 valence electrons.

Question 9

An element that has the valence electron configuration 6s²6p⁶ belongs to which period and group? A)period 6; group 16 B)period 6; group 18 C)period 7; group 16 D)period 7; group 18 E)period 7; group 17

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Question 10

An element that has the valence electron configuration 4s²4p⁴ belongs to which period and group? A)period 4; group 16 B)period 4; group 6 C)period 4; group 8 D)period 5; group 6 E)period 5; group 18

Accepted Answer

The electron configuration given corresponds to the element sulfur (S), which is in period 3 and group 16. However, the question asks for the period and group of an element with this electron configuration. To determine the period, we count the highest value of n in the configuration, which is 4. Therefore, the element belongs in period 4. To determine the group, we count the number of valence electrons, which is 6. Counting from the left-hand side of the periodic table, we find that group 16 has elements with 6 valence electrons, so the element belongs to group 16. Therefore, the correct answer is A) period 4; group 16.

Question 11

An element that has the valence electron configuration 4s² belongs to which period and group? A)period 4; group 2 B)period 4; group 14 C)period 4; group 6 D)period 4; group 1 E)period 4; group 9

Accepted Answer

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Question 12

Identify the ground-state electron configuration for I. A)[Kr]5s²4d¹⁰5p⁶ B)[Kr]5s²4d¹⁰5p⁵ C)[Kr]4d¹⁰5p⁶ D)[Kr]5s²5p⁶ E)[Kr]5s²5d¹⁰5p⁶

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Question 13

Identify the number of core electrons for O.&#10;A)0&#10;B)1&#10;C)2&#10;D)3&#10;E)4

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Question 14

An element that has the valence electron configuration 6s²5d⁷ belongs to which period and group? A)period 7; group 9 B)period 6; group 7 C)period 6; group 2 D)period 6; group 9 E)period 7; group 7

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Question 15

An element that has the valence electron configuration 3s¹ belongs to which period and group? A)period 4; group 7 B)period 4; group 2 C)period 4; group 1 D)period 3; group 2 E)period 3; group 1

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Question 16

Identify the number of core electrons for Cd.&#10;A)44&#10;B)48&#10;C)46&#10;D)45&#10;E)47

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Question 17

Identify the number of valence electrons for O.&#10;A)0&#10;B)1&#10;C)2&#10;D)3&#10;E)4

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Question 18

Identify the ground-state electron configuration for Pb. A)[Xe]6s²6p² B)[Xe]6s²5d¹⁰6p² C)[Xe]6s²5f¹⁴6d¹⁰6p² D)[Xe]6s²4f¹⁴5d¹⁰6p² E)[Xe]6s²4f¹⁴5d¹⁰^6s²6p²

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Question 19

Identify the ground-state electron configuration for Sr. A)[Kr]5s²4d² B)[Kr]5s²4d¹⁰^5p² C)[Kr]5s² D)[Kr]5s²5d¹⁰5p² E)[Kr]5s²4d¹⁰

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Question 20

An element that has the valence electron configuration 3s²3p⁶ belongs to which period and group? A)period 3; group 17 B)period 3; group 2 C)period 3; group 7 D)period 3; group 3 E)period 3; group 5

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Question 21

Using the periodic table, identify the element with the following exception electron configuration: [Kr]5s¹4d⁸ A)Tc B)Ru C)Os D)Rh E)V

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Question 22

Using the periodic table, identify the element with the following exception electron configuration: [Kr]5s¹4d¹⁰ A)Cd B)Hg C)Pd D)Au E)Ag

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Question 23

Use the periodic table to determine the ground-state electron configuration for the following element: Sc A)[Ar]4s²3d¹ B)[Ar]4s²3d² C)[Ar]4s³ D)[Ar]3d³ E)[Ar]4s²3d³

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Question 24

Use the periodic table to determine the ground-state electron configuration for the following element: Te A)[Kr]5s²4d¹⁰5p⁶ B)[Kr]5s²4d¹⁰5p⁴ C)[Xe]5s²4d¹⁰5p⁴ D)[Xe]6s²5d¹⁰4f¹⁴6p⁴ E)[Kr]5s²4d⁶

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Question 25

Using the periodic table, identify the element with the following exception electron configuration: [Kr]5s¹4d⁷ A)Mo B)Tc C)Rh D)Ru E)Pd

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Question 26

Using the periodic table, identify the element with the following exception electron configuration: [Ar]4s¹3d¹⁰ A)Ga B)Zn C)Cu D)Ni E)Cd

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Question 27

Using the periodic table, identify the element with the following exception electron configuration: [Xe]6s¹5d⁹ A)Au B)Pt C)Pd D)Tl E)Hf

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Question 28

Using the periodic table, identify the element with the following exception electron configuration: [Kr]5s¹4d⁵ A)Zr B)Ni C)Re D)Tc E)Mo

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Question 29

Using the periodic table, identify the element with the following exception electron configuration: [Ar]4s¹3d⁵ A)Ni B)Co C)Cr D)Mn E)Fe

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Question 30

Using the periodic table, identify the element with the following exception electron configuration: [Kr]5s¹4d⁴ A)Ti B)Zr C)Nb D)W E)Mn

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Question 31

Using the periodic table, identify the element with the following exception electron configuration: [Kr]4d¹⁰ A)Sn B)Ru C)Sr D)Cd E)Pd

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Question 32

Use the periodic table to determine the ground-state electron configuration for the following element: F A)[He]2s²2p⁵ B)[He]2s²3p⁵ C)[He]3s²2p⁵ D)[He]2s²1d¹⁰2p⁵ E)[He]3s²3p⁵

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Question 33

Use the periodic table to determine the ground-state electron configuration for the following element: Si A)[Ne]3s²3p¹ B)[Ne]3s²3p³ C)[Ne]3s²3p⁶ D)[Ne]3s²3p² E)[Ne]3s²3p⁴

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Question 34

Use the periodic table to determine the ground-state electron configuration for the following element: Fe A)[Ar]4s²4d⁶ B)[Ar]4s²3d⁶ C)[Ar]4s²5d⁶ D)[Ar]4s²5d³ E)[Ar]4s²3d⁸

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Question 35

Use the periodic table to determine the ground-state electron configuration for the following element: Co A)[Ar]4s²3d⁷ B)[Ar]4s²3d⁹ C)[Ar]4s²3d⁵ D)[Ar]3d⁹ E)[Ar]4s²3d³

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Question 36

Using the periodic table, identify the element with the following exception electron configuration: [Xe]6s¹5d¹⁰ A)Hg B)Au C)Cd D)Ir E)Rg

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Question 37

Use the periodic table to determine the ground-state electron configuration for the following element: As A)[Ar]4s²4d⁵4p⁵ B)[Ar]4s²3d¹⁰4p⁵ C)[Ar]4s²4d¹⁰4p⁵ D)[Ar]4s²4d¹⁰4p³ E)[Ar]4s²3d¹⁰4p³

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Question 38

Use the periodic table to determine the ground-state electron configuration for the following element: Zr A)[Kr]5s²4d¹⁰5p² B)[Kr]5s²5p² C)[Kr]5s²5d² D)[Kr]5s²4d² E)[Kr]5s²4d¹⁰5p⁴

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Question 39

An element that has the valence electron configuration 6s²6p² belongs to which period and group? A)period 6; group 16 B)period 6; group 6 C)period 6; group 4 D)period 6; group 14 E)period 6; group 9

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Question 40

Use the periodic table to determine the ground-state electron configuration for the following element: Mn A)[Ar]4s²3d⁵ B)[Ar]4s²3p⁵ C)[Ar]4s²3d¹⁰4p⁵ D)[Kr]5s²4d⁶ E)[Ne]3s²3p⁴

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Question 41

Use the periodic table to predict the most stable oxidation state for the following element: Pb&#10;A)+1&#10;B)+2&#10;C)+3&#10;D)-1&#10;E)-2

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Question 42

Use the periodic table to predict the most stable oxidation state for the following element: Ga&#10;A)+1&#10;B)+2&#10;C)+3&#10;D)-1&#10;E)-2

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Question 43

Use the periodic table to predict the most stable oxidation state for the following element: B&#10;A)+1&#10;B)+2&#10;C)+3&#10;D)-1&#10;E)-2

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Question 44

How many unpaired electrons are present in the ground-state Kr atom?&#10;A)1&#10;B)2&#10;C)0&#10;D)3&#10;E)5

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Question 45

Use the periodic table to predict the most stable oxidation state for the following element: Ca&#10;A)+1&#10;B)+2&#10;C)+3&#10;D)-1&#10;E)-2

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Question 46

How many unpaired electrons are there in the ground-state of As?&#10;A)0&#10;B)4&#10;C)3&#10;D)2&#10;E)1

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Question 47

How many valence electrons does an atom of S have?&#10;A)3&#10;B)1&#10;C)2&#10;D)4&#10;E)6

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Question 48

Use the periodic table to determine the ground-state electron configuration for the following element: Ga A)[Ar]4s²3d¹⁰4p² B)[Ar]4s²3d⁹ C)[Ar]4s²3d¹⁰ D)[Ar]4s²4p² E)[Ar]4s²3d¹⁰4p¹

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Question 49

Use the periodic table to predict the most stable oxidation state for the following element: Al&#10;A)+1&#10;B)+2&#10;C)+3&#10;D)-1&#10;E)-2

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Question 50

Use the periodic table to predict the most stable oxidation state for the following element: Br&#10;A)+1&#10;B)+2&#10;C)+3&#10;D)-1&#10;E)-2

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Question 51

How many of the following elements have one unpaired electron in the ground state? B Al S Cl&#10;A)1&#10;B)2&#10;C)3&#10;D)4

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Question 52

How many of the following elements have two unpaired electrons in the ground state? C O Ti Si&#10;A)1&#10;B)2&#10;C)3&#10;D)4

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Question 53

How many unpaired electrons are present in the ground-state Ge atom?&#10;A)0&#10;B)3&#10;C)1&#10;D)2&#10;E)4

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Question 54

Use the periodic table to predict the most stable oxidation state for the following element: F&#10;A)+1&#10;B)+2&#10;C)+3&#10;D)-1&#10;E)-2

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Question 55

Use the periodic table to predict the most stable oxidation state for the following element: K&#10;A)+1&#10;B)+2&#10;C)+3&#10;D)-1&#10;E)-2

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Question 56

Use the periodic table to predict the most stable oxidation state for the following element: O&#10;A)+1&#10;B)+2&#10;C)+3&#10;D)-1&#10;E)-2

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Question 57

How many unpaired electrons are present in the ground-state P atom?&#10;A)0&#10;B)3&#10;C)1&#10;D)2&#10;E)4

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Question 58

Identify the number of valence electrons for Mn.&#10;A)8&#10;B)7&#10;C)5&#10;D)2

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Question 59

Use the periodic table to predict the most stable oxidation state for the following element: Na&#10;A)+1&#10;B)+2&#10;C)+3&#10;D)-1&#10;E)-2

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Question 60

Identify the element that has a ground-state electronic configuration of [Ar]4s²3d¹⁰4p¹. A)Al B)In C)Ga D)B

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Question 61

How many valence electrons does an atom of Al possess?&#10;A)1&#10;B)2&#10;C)5&#10;D)3&#10;E)8

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Question 62

Place the following in order of increasing atomic radius. As O B&#10;A)As < Br < O&#10;B)O < As < Br&#10;C)Br < As < O&#10;D)As < O < Br&#10;E)O < Br < As

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Question 63

Identify the species that has the smallest radius.&#10;A)cation&#10;B)anion&#10;C)neutral&#10;D)All of the above are the same size.

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Question 64

Place the following in order of increasing radius. Ca²⁺ S²⁻ Cl⁻ A)Ca²⁺ < Cl⁻ < S²⁻ B)Cl⁻ < Ca²⁺ < S²⁻ C)S²⁻ < Cl⁻ < Ca²⁺ D)Ca²⁺ < S²⁻ < Cl⁻ E)Cl⁻ < S²⁻ < Ca²⁺

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Deck 8: Periodic Properties of the Elements