Two sets of ionizations are shown in the tables below. Complete the tables by ordering each set of ionizations by increasing amount of energy required. In other words, for each set choose "1" next to the ionization that would require the least energy, "2" next to the ionization that would require the next least energy, and so on. ionization Sb Sb +e Fr - Fr + e Kr Kr + e energy required ? ? 1 (least) 2 3 (most) ionization He → He + e Si Si + e C-C²+e energy required ? ? ? v v

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Chapter1: Chemical Foundations
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Two sets of ionizations are shown in the tables below. Complete the tables by ordering each set of ionizations by increasing amount of energy required.

In other words, for each set choose "1" next to the ionization that would require the least energy, "2" next to the ionization that would require the next least energy, and so on.

| Ionization          | Energy Required |
|---------------------|-----------------|
| Sb → Sb⁺ + e⁻       | [Dropdown: 1, 2, 3] |
| Fr → Fr⁺ + e⁻       | [Dropdown: 1, 2, 3] |
| Kr → Kr⁺ + e⁻       | [Dropdown: 1, 2, 3] |

| Ionization          | Energy Required |
|---------------------|-----------------|
| He → He⁺ + e⁻       | [Dropdown: 1, 2, 3] |
| Si → Si⁺ + e⁻       | [Dropdown: 1, 2, 3] |
| C → C⁺ + e⁻         | [Dropdown: 1, 2, 3] |

Each dropdown allows selection among 1 (least), 2, and 3 (most) to rank the energy required for the ionizations.
Transcribed Image Text:Two sets of ionizations are shown in the tables below. Complete the tables by ordering each set of ionizations by increasing amount of energy required. In other words, for each set choose "1" next to the ionization that would require the least energy, "2" next to the ionization that would require the next least energy, and so on. | Ionization | Energy Required | |---------------------|-----------------| | Sb → Sb⁺ + e⁻ | [Dropdown: 1, 2, 3] | | Fr → Fr⁺ + e⁻ | [Dropdown: 1, 2, 3] | | Kr → Kr⁺ + e⁻ | [Dropdown: 1, 2, 3] | | Ionization | Energy Required | |---------------------|-----------------| | He → He⁺ + e⁻ | [Dropdown: 1, 2, 3] | | Si → Si⁺ + e⁻ | [Dropdown: 1, 2, 3] | | C → C⁺ + e⁻ | [Dropdown: 1, 2, 3] | Each dropdown allows selection among 1 (least), 2, and 3 (most) to rank the energy required for the ionizations.
Expert Solution
Step 1: Defining ionization energy

Answer:

Energy required to remove a most loosely bonded electron from the valence shell of an isolated gaseous atom is called as ionization energy.

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