5 Must Know Facts For Your Next Test

1. Electron configurations are usually written using the notation that indicates the number of electrons in each subshell, such as 1s² 2s² 2p⁶ for neon.
2. The arrangement of electrons influences the element's reactivity; for example, elements with a full outer shell are generally inert and do not easily form compounds.
3. As you move across a period in the periodic table, the electron configurations show a trend of increasing nuclear charge, affecting atomic size and reactivity.
4. Transition metals have unique electron configurations that can lead to the presence of multiple oxidation states, influencing their chemical behavior.
5. Periodic trends such as ionization energy and electronegativity can be predicted by analyzing the electron configurations of elements.

Review Questions

• How does electron configuration influence the chemical reactivity of elements?
  • Electron configuration plays a crucial role in determining an element's chemical reactivity because it dictates how many valence electrons are present. Elements with nearly full or nearly empty outer shells tend to be more reactive, as they seek to achieve a stable electron arrangement. For instance, alkali metals have one valence electron and readily lose it to form positive ions, while halogens have seven valence electrons and readily gain an electron to achieve stability.
• Analyze how the Aufbau principle impacts the electron configuration of elements across periods in the periodic table.
  • The Aufbau principle impacts electron configuration by guiding how electrons fill atomic orbitals from lowest to highest energy levels. As you move across periods in the periodic table, this principle explains the systematic filling of subshells. For example, in period 2, lithium fills its 1s orbital before moving to the 2s orbital, while neon completes its 2p orbitals. This orderly filling pattern is essential for understanding periodic trends in properties like atomic size and ionization energy.
• Evaluate the relationship between electron configuration and periodic trends such as electronegativity and ionization energy.
  • The relationship between electron configuration and periodic trends like electronegativity and ionization energy is fundamental in chemistry. Electronegativity often increases with increasing nuclear charge, meaning elements with higher atomic numbers typically have stronger attractions for electrons. This trend can be traced back to their electron configurations; elements with full or nearly full outer shells exhibit higher electronegativities. Similarly, ionization energy tends to increase across a period because added protons increase nuclear charge without significant additional shielding, making it harder to remove valence electrons.

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