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Using the electron configuration scheme, answer all of the following: 1. write the orbital filling diagram...
17. Write ground state electron configuration AND Orbital Box Diagram for silicon. State the number of valence electrons for silicon. 18. Write the ground state electron configuration AND Orbital Box Diagram for phosphorus. State the number of valence electrons for phosphorus.
Write the i) full electron configuration ii) the orbital filling diagram and iii) the condensed electron configuration for: a) Copper b) Bromine
6.(18ps) (a) 6pts. What is the ground state electron configuration and orbital diagram of Nb(41)? Is this paramagnetic or diamagnetic? (b) 4pts. The following is an excited state configuration of a neutral atom: 1s 2s 2p 3s'4p24s'7s2 Identify the element and write its ground state electronic configuration. Is this excited state diamagnetic or paramagnetic? Explain. c. Spts. Write the ground state electron configuration of each of the following ions: (1) Zr?*(40) (ii) In?*(49) Ciii) Pd**(46) (iv) Se?(34)
6.(18ps) (a) 6pts. What is the ground state electron configuration and orbital diagram of Nb(41)? Is this paramagnetic or diamagnetic? (b) 4pts. The following is an excited state configuration of a neutral atom: 1s2s22p 3s!4p2 4s 7s Identify the element and write its ground state electronic configuration. Is this excited state diamagnetic or paramagnetic? Explain. 8pts, Write the ground state electron configuration of each of the following ions: c. (iv) Se (34) (ii) In2'(49) (ii) Pd*(46) (i) Zr (40)
For the following: Al, Ca, Sc, Cr, and Zn Write the electron configuration (condensed or noble gas). b. Indicate how many unpaired electrons each atom has 2.Write the orbital diagram for the electron configuration of ground state and excited state of carbon atom. Hint: excited carbon has 4 valence electrons.
Q40. Write the orbital diagram and electron configuration for the following atoms: a. Fluorine: b. Silicon: c. Krypton: Q41. Write the abbreviated configuration and then identify the valence electrons for the following atoms. Predict the ion charge for these elements: a. Boron: b. Sulphur: c. Bromine: d. Iron: e. Fluorine: f. Copper g. Potassium h. Aresenic
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:
complete an orbital box diagram using short notation for the ground state electron configuration of vanadium.
1. (10 points) Write the full electron configuration, the noble gas shorthand configuration and the orbital diagram for iron (III) ion. Predict the magnetic property (diamagnetic or paramagnetic) of the ion.
1) Write the FULL Aufbau electron configuration of Vanadium (V) and its Bohr Model (2 pts) Electron Configuration of Vanadium: (1 pt.) Bohr Model: 2) Write the abbreviated electron configuration for Antimony (s, Sb) and state the # of valence es. (2 pts) Abbreviated electron configuration for Antimony: (1 pt.) # of valence es: