1)
For n=2, l can be 0 or 1
So, 2s and 2p are possible
Answer: 2s, 2p
2)
For n=1, l can be 0
So, 1s is possible
Answer: 1s
3)
For n=4, l can be 0, 1, 2 or 3
So, 4s, 4p, 4d and 4f are possible
Answer: 4s, 4p, 4d, 4f
Fill in the information missing from this table: Some electron shells 0.0... shell subshells 2s, 2p
Fill in th rmation missing from this table: Some electron shells O.O... shell subshells ? X 2 2s, 2p 10 1
Fill in the information missing from this table: Some electron subshells subshell principal quantum number n angular momentum maximum number of quantum number / electrons. 0
Fill in the ....ormation missing from this table: Some electron subshells xs ? subshell principal quantum number n angular momentum maximum number of quantum number / electrons 4d 25
Fill in the missing information about the atoms in the table below. number of electrons number of electron shells number of symbol protons valence total Te Po 2 6 8 8 O X
concerning the electron configuration of F, 1s^2 2s^2 2p^5, what is the configuration for the VALENCE shell electrons ?
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...
What group has the following electron configuration ving electron configuration, 1s? 2s 2p%324p w the electron dot formula for each of the following elements: Ca² Br Ne Ga Cs Elements in group IA and VIIA of the pe form ions with charges of: group IA and VIIA of the periodic table would, respectively, be expected to Please complete the following table and provide the missing information Atomic Notation Mass Number Atomic Number Number of Number of Neutrons Electrons Number of...
1: Part A: Two electrons occupy the 2s shell in a Be atom (Z = 4). What are the possible quantum numbers J for the total angular momentum of this two-electron system, neglecting any contributions from the nucleus or 1s level? Part B: Calculate the energy required to cause an electron from the 2s shell to jump to each of the 2p, 3s, 3p, and 3d states. E1 for Be is 9.3 eV. En = (-Z2E1)/n2. One of the listed...
Via the periodic table, how would you organize the electron shells from the lowest energy level to the highest? Li being the lowest and Ne being the highest due to the amount of valence electrons in the outer shell?
Consider an electron in a 2s orbital of hydrogen (Z=1). Calculate the probability that the electron will be found anywhere in a shell formed by a region between a sphere of radius r and radius 1.0pm greater than the r value. Do this calculation in Excel for r from 1 to 600 pm in increments of 1pm. (You will be calculating the probability for successive shells at greater and greater distances from the nucleus.) Plot the resulting curve with probability...