first identify the no of electrons and then write
electron configuration and then unpaired electrons as
follows
Give the EXPECTED abbreviated electron configuration for the ground state of the element shown below and the number of...
Give the EXPECTED abbreviated electron configuration for the ground state of the element shown below and the number of unpaired electrons expected to be in the highest energy subshell for. Enter your answer with subshells in increasing energy order, without superscripts and with spaces between subshells. Example: vanadium (V) = [Ar] 4s2 3d3 Abbreviated Electron Configuration Palladium (Pd): Answer Answer Unpaired Electrons Bismuth (Bi): Answer Answer Unpaired Electrons Germanium (Ge): Answer Answer Unpaired Electrons
Electron Configuration PRACTICE: This question is worth ZERO POINTS. (Use this question to make sure that you understand the proper format for entering electron configurations) Enter your answer with subshells in increasing energy order, without superscripts and with spaces between subshells and after the closing square bracket. Example: vanadium (V) Electron configuration: 1s 2s 2p°3s 3p°4s 3d* Abbreviated Configuration: [Ar]4s 3d Entered the configuration as: [Ar] 4s2 3d3 Practice (IF YOUR ANSWER IS INCORRECT,_place your mouse pointer over the answer...
Write the electron configuration for Astatine (At), element 85 in its ground state. Indicate the number of valence and core electrons in this element How many unpaired electrons does ground state At possess? Which set of quantum numbers correctly describes an electron in the outermost orbital of a astatine atom? At Electron Configuration: Valence Electrons: Core Electrons: Quantum Numbers: n = 1 = m1 = m2 = Unpaired Electrons:
Give the chemical symbol for the element with the ground-state electron configuration [Ar]4s23d'. symbol: Sc Determine the quantum numbers n and 1 and select all possible values for me for each subshell of the element. 4s n= 45 l = The possible values of me for the 4s subshell are O-3, -2, -1,0, +1, +2, +3 0 -2,-1,0, +1, +2 0 -1,0, +1 Oo 3d n= 3d t = The possible values of me for the 3d subshell are O-2,...
Review I Constants 1 Periodic Table Give the ground-state electron configuration for silicon (Si) using noble-gas shorthand. Express your answer in condensed form as a series of orbitals. For example, Ar]483d would be entered as [Ar]4s^23d"8. ► View Available Hint(s) Submit Part C Give the actual ground-state electron configuration for copper (Cu) using the complete form. Express the electron configuration using superscripts where appropriate. For example, the configuration for Li would be entered as ls*22*1. View Available Hint(s) 1s"22s22p^63s 23p...
The ground state electron configuration of a mn^2+ is 1s^22s^22p^63s^23p^63d^5 me^2+ is paramagnetic with five unpaired electron. diamagnetic. paramagnetic with one unpaired electron paramagnetic with three unpaired electron paramagnetic with two unpaired electron which ground-state electron configuration is incorrect? br:[ar]3d^104s^24p^5 k: [ar] 4s^1 fe: [ar]3d^5 zn: [ar]3d^104s^2 What 2+ ion has the following ground state electron configuration? The procedure by which electrons are assigned to (or buih up into) orbitals is known as the principle. a. Aufbau b. Bohr c....
Give the chemical symbol for the element with the ground-state electron configuration (Ne]3343p. symbol: Determine the quantum numbers and and select all possible values form for each subshell of the element 35,- The possible values of my for the 3s subshell are O-3, -2, -1,0, +1, +2, +3 O -10.+1
6. Identify the following: a. An-excited state of this element has the electron configuration 1s 2s 2p Beryllium b. The ground-state electron configuration is [Ne]3s 3p Sulfur c. An excited state of this element has the electron configuration [Kr5s4dº5p 6s' Silver d. The ground-state electron configuration contains 3 unpaired 5p electrons
101. Which atom in its ground state has two unpaired electrons in the electron configuration?a. Mg b. P c.S d. Cl 102. Which of the following is the correct ground state electron configuration of the element germanium (Ge)?
An element in its ground state has electron configuration: [Ar]4s23d3 What is this element?