show work 12. Using complete subshell notation (1s22s22pf, and so forth), predict the electron configuration of...
11. Describe the Pauli exclusion principle. If 2 electrons share the same quantum numbers for n, l, and mi, what must be different about them? 12. Using complete subshell notation (1s22s22p®, and so forth), predict the electron configuration of each of the following atoms. a. N b. Sc c. Na d. As e. Mn 13. How many valence electrons do the following atoms have? a. P b. N K c. d . Ni e. Ne
Using complete subshell notation (not abbreviations, 1s22s22p, and so forth), predict the electron configuration for vanadium (V). 1s22s22p6332342303 1s22s22p%3523p%3d 1s22s22p 3s 3p 4524d 1s22s22p 3s 3p 45
Complete the following table using the subshell electron configuration method. A. Species Electron Configuration Number of Valence electrons Ca, Calcium As, Arsenic Mn, Manganese B) Species Electron Configuration Cd, Cadmium Te, Tellurium Br, Bromide ion
11. Answer the following questions: (a) Without using quantum numbers, describe the differences between the shells, subshells, and orbitals of an atom. (b) How do the quantum numbers of the shells, subshells, and orbitals of an atom differ? 12. Identify the subshell in which electrons with the following quantum numbers are found: (a) n 3,1 2 (b)n 1,1 0 (c)n 4,1-3 13. Using complete subshell notation (not abbreviations, 1s 2s 2p, and so forth), predict the electron configuration of each...
When rubidium ions are heated to a high temperature, two lines are observed in its line spectrum at wavelengths (a) 7.67 x 10-7 m and (b) 3.99 x 10-7 m. What are the frequencies of the two lines? What color are the lines? Choose the answer that best completes the following: The existence of atomic line spectra indicates that. . . the energy of a photon depends on its frequency. all orbitals in s subshells must be spherical in shape....
Just solve this a) Write the complete electron configuration and the short-hand electron configuration of arsenic, As. b) Complete Electron Configuration. c) Short-hand (Noble Gas) Electron Configuration. d) How many core electrons does arsenic have? e) How many valence electrons does arsenic have? f) As a metalloid, what possible +ion charge or-ion charge can arsenic have? + or - g) Sketch the Photoelectron Spectrum for Arsenic's complete electron configuration. h) Write the four quantum numbers for each of Arsenic's valence...
10) How many valence electrons are there in an atom with an electron configuration of 1s 2s 2p 3s 3ps A) 2 B) 3 C) 5 D) 7 E) none of these 11) Consider the element with the electron configuration (Kr]5524d105p. This element is A) a halogen B) a transition metal C) an alkali metal D) an alkaline earth metal E) a noble gas 12) In which set of elements would all members be expected to have very similar chemical...
11. The electron configuration of phosphide ion (13-) is -- a) (Ne]3s 3p b) (Ne]3:43 d) [Ne3 e) (Ne]3s 3p c) Ne]3s 2. Which of the following atoms would be expected to have the largest electron affinity, or wou release the greatest amount of energy when an electron is added? 1) Na - 6 F c o d) Li d) LIB The halogens, alkali metals, and alkaline earth metals have ---------valence electrons, respectively a) 7. I. and 2 b) 8.2...
please only answers for questions 1-23. No work needed 1) Give the ground state electron configuration for the ion of Ba. A) [Krj5s24d 105pfes2 B) (KrjS24d105ph26p2 9(KrjS24d105p6 D) Kr525p E) [Kr]5s24d105pés 2) Choose the valence orbital diagram that represents the ground state of Se A) 1 11 1 4s 4p в) 1 11 4s 4p C) 1L 3s Зр D) 11 1L 1 3s Зр E) 1 1 4s 4P 3) How many valence electrons do the alkaline earth metals...
1. Write electron configuration for …. DO NOT use the core notation. Write out the last one so it would match the Box diagram. ( for example, write ….2p1,1,0 instead of 2p2). a) Sn b) Ba c)Nb d) Mg 2. Write electron configuration for …. Use the core notation. Write out the last one so it would match the Box diagram. ( for example, write ….2p1,1,0 instead of 2p2). a) Sn a) Zr Co Kr As 3. How many families...