Electron Configurations and the Periodic Table 13 of 19 Number the rows within each block of...
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...
Electron Configurations of lons ③ 19 01 23 Review Constants Periodic Table When an atom forms an ion, it will gain or lose electrons to attain a more stable electron configuration, frequently that of a noblo gas. Nonmetals tend to form anions by gaining electrons, which enter the lowest energy unoccupied orbital. Metais tend to form cations by losing electrons. Main group motals lose electrons in the reverso order of filling. Transition metals, however, lose s electrons first. Part A...
For each set of elements represented in this periodic table outline, identify the principal quantum number, n, and the azimuthal quantum number, l for the highest energy electrons in an atom of one of those elements. Drag each label to the appropriate target.
Part A What is the ground-state electron configuration of a neutral atom of cobalt? Express your answer in condensed form, in order of increasing orbital energy. For example, Hej2s22p2 would be entered as Hel2s 22p 2 View Avallable Hint(s) Review l Constants l Periodic Table The electron configuration of an atom tells us how many electrons are in each orbital. For example, helium has two electrons in the 1s orbital. Therefore the electron configuration of He is 1s Submit Previous...
Unit 3 Homework ore Chemistry Skill: Using the Periodic Table to Write Electron Configurations Part B Match each complete or abbreviated electron configuration with the element it corresponds to, assuming that each configuration is for a noutral atom. Drag the appropriate items to their appropriate bins. View Available Hint(s) Reset Help C, Carbon Bi, Biamuth Ta, Tantalum Se, Selenium Zn Zinc Mg Magnesurn Submit Part C
A Review Constants Periodic Table Learning Goal: To use electron configuration to explain magnetic behavior. Electron configuration The magnetic behavior of an atom or ion depends on its electron configuration. An important property that results from the electron configuration of an atom or an ion is behavior in the presence of an external magnetic field. Due to the random orientations of electron spins most materials have no permanent magnetic effect without an external magnetic field. Part A Select the correct...
Drag and drop orbitals and electron counts to complete the electron configuration of iron, Fe, Be sure to arrange the subshells in order of energy, with the lowest-energy subshell at the left and the highest-energy subshell at the right. Drag the appropriate labels to their respective targets. View Available Hint(s) Reset Help 1 2 3 4 10 28 5 50 6 20 8 40 18 4d 30 50 3d 0 62 01 01 GI 62 62 62 01 010 02...
2. Use your periodic table to write the shorthand (noble gas) electron configurations: 8 pts a) Cu b) 52 b) Sn c) Sn2+ 3. Draw a picture of the orbital containing the highest energy electrons in aluminum. Label the picture with the name of the orbital and show the location of the nucleus of the atom. 4 pts
Electron configurations are not always 'predictable' from the periodic table Briefly explain why Cr and Cu have experimental electron configurations that differ from what is expected from the periodic table. Then explain why so many f block elements have ‘unusual’ experimental electron configurations.
Based on position in the periodic table and electron configuration, arrange these elements in order of decreasing Ei1. Rank the elements from highest to lowest ionization energy. To rank items as equivalent, overlap them. ► View Available Hint(s) Reset Help O Р S ΑΙ Na K