a) Ti (Z = 22)
Electron configuration = 1s2 2s2 2p6 3s2 3p6 4s2 3d2
Condensed electron configuration= [Ar]4s2 3d2
Inner electrons : [Ne]3s23p6 4s2 3d2 = [He]2s22p63s23p6 4s2 3d2
Partial orbital diagram:
4s __↑_↓_
3d1_↑ _ 3d2_↑_
b) Cs (Z = 55)
Electron configuration = 1s2 2s2 2p6 3s2 3p6 3d10 4s2 4p6 4d10 5s2
5p6 6s1
Condensed electron configuration= [Xe] 6s1
inner electrons : [Kr]5s24d105p6 6s1
Partial orbital diagram:
6s __↑_
c)
a) I (Z = 53)
Electron configuration = 1s2 2s2 2p6 3s2 3p6 3d10 4s2 4p6 4d10 5s2
5p5
Condensed electron configuration= [Kr] 4d10 5s2 5p5
inner electrons : [Ar] 3d10 4s2 4p6 4d10 5s2 5p5
Partial orbital diagram:
5s_↿⇂
5p_↿⇂↿⇂↿
8. Using the periodic table on the inside cover of the text (not Figure 8.12 or...
CHEM 101: PREPARATORY CHEMISTRY (SP19-ZIMMERMANN) Module 4 Homework Electron Configurations and the Periodic Table Drag the appropriate items to their respective bins. View Available Hint(s) Reset Help Period 4 elements all have The valence electrons of group 6A elements are in the 7s subshel. The valence electrons of group 1A elements are in an s subshell. Period 3 elements have an inner electron configuration of [Ne] sx 4p electrons. Period 4 elements have an Group BA elements have The highest...
locate these elements in the periodic table and then draw a lewis
dot symbol that represents a number of valence electrons for an
atolm of each
12. Unde he Love these elements in the periodic table and then draw a Lewis dat symbol r of valence electrons for an atom of each b) Bir d) S c) Na e) N 10. Give the electron configurations of these ions, and indicate which ones are isoelectronic a) Ca2+ b) K+ c) O2-...
Part I: Periodic Trends of the Elements Using only the Periodic Table, make predictions about properties such as atomic size and to determine electron configurations for atoms and fons. For this section, consider these six elements: OF P Ar K Mg Description Circle ALL that apply, or "None of these" Support your answers. 1. Its atomic radius is larger than a sulfur atom. OF Mg P Ar K None of these 2. Its most stable ion: (a) has the same...
3. mer How many electrons in an atom can have each of the following quantum designations! 2 fourth period and forbital C. -41-3m--12 d. 3p 4. (pt) Why does the size of atoms increase going down a group on the periodic table? 5. (pt) What is a quanta of energy? 6. (pt) How does an atom generate atomic emission spectra? 7. (pt) Rank the following in order of increasing first ionization energies Ge, K. C S and Si X (pt...
Report: Periodic Properties Valence Electrons +Electron Configurations 1. Give the condensed electron configuration for the following elements. Rb d. I a. b. С e. Ca c. Si f. Pb Give the number of valence electrons for each element. 2. d. Br a. Al b. Rb c. Ar 3. Across a period of the periodic table (left to right), valence electrons... Circle the correct choice: (increase / remain the same / decrease) Down a family of the periodic table (top to...
Chemistry CHE 140, 170, 180 о Goal: With reference only to the periodic table, to write the electron configuration of the ground state (lowest energy), gaseous, atoms. Tools: (1) A list of the electronic sublevels within the atom in order of their increasing energy. (Write the list, 1s 2s 2p <6s, in the boxes below as indicated, by inspection of the "Aufbau" diagram or of the periodic table, where the order is explicit) (ii) Fill in the box below each...
Chemistry 1A Name: Quantum Theory & Periodic Trends 1. What element is represented by the electron configuration 1s 2s 2p 3s 3p? 2. What element is represented by the orbital diagram: 3. Draw the orbital diagrams (as in #2) for the following species, using noble gas abbreviation: 4. Write the electron configuration for the following elements and ions using spdf notation (without noble gas abbreviations): Ge 5. Write the electron configuration for the following elements and ions using noble gas...
How to figure it out using periodic table
Write the complete & abbreviated electron configuration for the following elements given their: a. 2 b. 6 c. 8 d. 10 e. 18 f. 22 g. 32 h. 73.
After reviewing the information in Figures 1 and 2 and the table
in the introduction, two students offer the following
hypotheses:
Student X: The number of fluorine atoms that bond to a metal
atom is equal to the number of valence electrons of the metal. The
number of fluorine atoms that bond to a nonmetal atom is equal to 8
minus the number of valence electrons of the nonmetal.
Student Y: In general, there is an inverse relationship between
the...
Problem Set 4 Atomic Structure and the Periodic Table Name: Date: Lab Section: General Instructions Complete the following problems. Attach another sheet to give yourself space for problems 8,9,10 as needed. Assignment is due at the end of the lab period unless stated otherwise by instructor. 1.) Energy Levels and Sublevels for the Polyelectronic Atom (a) How many sublevels exist in the energy level (n = 5)? (b) How many orbitals exist in any f-sublevel? (c) What is the maximum...