Question 40 What is the electron configuration for an atom of silicon? Selected Answer: 152 252...
The electronic configuration for boron is 152 252 2p1, and the electronic configuration for aluminum is 192 252 2p6 352 3p1. It requires 8.298 eV to remove the outermost electron (2p1) from boron. What can you say about the energy required to remove the outermost electron from aluminum (3p1)? Since each is the outermost electron around the atom, the energy required will be equal to 8.298 eV. Since each electron is in a p orbital, the energy required will be...
An electrically neutral gallium atom has 31 electrons around its nucleus. Which of the following is the correct electronic configuration for a gallium atom that is triply-ionized? 1s2 2s22p6 352 3p6 4s2 3d10 4p1 1s2 2s22p6 352 3p6 452 0 0 0 152 2s22p10 352 3p6 4s2 3d4 152 252 352 2p6 3p4 1s2 252 2p6 352 3p6 482 3d8
An electrically neutral gallium atom has 31 electrons around its nucleus. Which of the following is the correct electronic configuration for a gallium atom that is triply-ionized? 1s2 2s22p6 352 3p6 4s2 3d10 4p1 1s2 2s22p6 352 3p6 452 0 0 0 152 2s22p10 352 3p6 4s2 3d4 152 252 352 2p6 3p4 1s2 252 2p6 352 3p6 482 3d8
An electrically neutral gallium atom has 31 electrons around its nucleus. Which of the following is the correct electronic configuration for a gallium atom that is triply-ionized? 1s22s22p6 352 3p6 4s2 3d 10 4p1 1s22s22p6 352 3p6 452 152 252 2p10 352 3p6 452 304 152 252 352 2p6 3p4 1s22s22p6 352 3p6 4s2 3d8
1) **The electron configurations of five different elements are shown below. Which of these elements is expected to have the largest second ionization energy (IE2)?** (a) 182 282 2p 3s1 (b) 1s22s22p6352 (c) 152 252 2p 3s 3p! (d) 152 282 2p6 352 3p4 (e) 1s 2s22p6 382 3p5
An electrically neutral gallium atom has 31 electrons around its nucleus. Which of the following is the correct electronic configuration for a gallium atom that is triply-ionized? 1s22s22p6 382 3p6 452 3d104p1 1s22s22p6 382 3p6 4s2 1s22s22p10 352 3p6 4s2 304 O 152 252 352 2p6 3p4 1s22s22p6 352 3p6 452 3d8
Question 22 5 pts The electronic configuration for boron is 152 2s22p1, and the electronic configuration for aluminum is 1s2 252 2p6 352 3p1. It requires 8.298 eV to remove the outermost electron (2p1) from boron. What can you say about the energy required to remove the outermost electron from aluminum (3p1)? Since each is the outermost electron around the atom, the energy required will be equal to 8.298 eV. Since each electron is in a p orbital, the energy...
1. what is the identity of the element with the following electron configuration and a (+1) charge? 192 252 2p6 352 3p6
Question 22 5 pts The electronic configuration for boron is 1s2 2s22p1, and the electronic configuration for aluminum is 152 252 2p6 352 3p1. It requires 8.298 eV to remove the outermost electron (2p1) from boron. What can you say about the energy required to remove the outermost electron from aluminum (3p 1)? Since each is the outermost electron around the atom, the energy required will be equal to 8.298 eV. Since each electron is in a p orbital, the...
e me e=1 . silicon=3 . silicon no 3 9. Give the full electron configuration of a rubidium atom diagram of the last subshell with electrons. Provide the quantih. R6 152 asa ap' 350 3 pb 3 do 450 n=5 l=6 me=0 ms=+la 10. Give the full electron configuration of a Znion. Provide the orbital diagram of the last subshell with electrons. Provide the quantum numbers for the last electron