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Chemistry Practice Problems for Electron Configuration and Periodic Properties

This practice set covers atomic radius trends, ionization energy, valence electrons, group and period elements, and periodic properties comparison for d-block and main group elements. Enhance your chemistry skills with these exercises.

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Chemistry Practice Problems for Electron Configuration and Periodic Properties

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  1. Practice problems Electron Configuration And Periodic Properties

  2. Practice Problem #1 • Of the elements Li, O, C, and F, identify the one with the largest atomic radius and the one with the smallest radius. • Atomic radius decreases across a period due to increasing nuclear charge. • Li has the largest atomic radius – it is a group 1 element (i.e., furthest to the left in the period • F has the smallest atomic radius – it is furthest to the right in the period, has the highest nuclear charge.

  3. Practice Problem #2 • Of the elements Br, At, F, I and Cl, identify the one with the largest atomic radius and the one with the smallest radius. • Atomic radius increases down a group due to the outer electrons filling orbitals in higher main energy levels further from the nucleus. • F has smallest atomic radius (at the top of the group) • At has largest atomic radius (at the bottom of the group)

  4. Practice Problem #3 • What is ionization energy? • Ionization energy is the energy required to remove one electron from a neutral atom of an element. • A + energy A+ + e-

  5. Practice Problem #4 • What is an ion? What is ionization? • An ion is a charged atom or a group of atoms with a charge. The charge can be positive or negative. • Ionization is any process that results in the formation of an ion.

  6. Practice Problem #5 • What are second, third, etc. ionization energies? • The removal of an electron from a neutral atom is the first ionization energy. The removal of additional electrons from a positive ion is the second ionization energy, third ionization energy, etc. • The ionization energy increases for each successive ionization because the electron feels an increasingly stronger nuclear charge.

  7. Practice Problem #6a • Q: 3s23p5 R: 3s1 T: 5s24d105p5 X: 5s24d105p1 • What is the block and location of each? • Q: p block, group 17; period 3 • R: s block, group 1, period 3 • T: p block, group 17, period 5 • X: p block, group 13, period 5

  8. Practice Problem #6b • Q: 3s23p5 R: 3s1 T: 5s24d105p5 X: 5s24d105p1 • Which elements are in the same period? • Q & R in same period; T&X in same period • Which elements are in the same group? • Q&T in same group

  9. Practice Problem #6c • Q: 3s23p5 R: 3s1 T: 5s24d105p5 X: 5s24d105p1 • Which one has the highest first ionization energy? • Highest first ionization energy: Q (furthest to the top right of periodic table) • Which one has the lowest first ionization energy? • Lowest first ionization energy: R (alkali metal, have low ionization energies.

  10. Practice Problem #6d • Q: 3s23p5 R: 3s1 T: 5s24d105p5 X: 5s24d105p1 • Which would you expect to have the highest second ionization energy? • After the first ionization, R attains an electron configuration like a noble gas. It would take a lot of energy to remove a second electron. The other elements still have electrons in their outmost energy level, so it would not take as much energy to remove a second electron from those elements.

  11. Practice Problem #7 • Define valence electrons: • Valence electrons are the electrons that are available to be lost, gained, or shared in the formation of a chemical compound.

  12. Practice Problem #8 • In which shells are the valence electrons found and why are they important? • Valence electrons are found in the highest occupied energy level. These are the electrons that are involved in chemical bonding.

  13. Practice Problem #9 • Among the main group elements, what is the relationship between the group number and the number of valence electrons among group members? • Group 1: ns1 1 valence electron (same as group #) • Group 2: ns2 2 v.e. (same as group #) • Group 13: ns2np1 3 v.e. (group # -10) • Group 14: ns2np2 4 v.e. (group # - 10) • Etc.

  14. Practice Problem #9 • In general, how do the periodic properties of the d-block elements compare with those of the main group elements? • Atomic radii – decreases across period but the decrease is less than in main group • Ionization energies – different from main group elements in that energies increase going down a group because valence electrons in s sublevel are less shielded • Electronegativity – have the lowest electronegativity values, aside from Groups 1 and 2; but do tend to follow trend that electronegativity increases as radii decrease.

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