Write the condensed electron configurations for the following atom: (f) Lu.
Write the condensed electron configurations for the following atoms: (e) Y
Write the condensed electron configurations for the following atoms: (d) V
Write the condensed electron configurations for the following atoms, using the appropriate noble-gas core abbreviations: (d) Cd
Write the condensed electron configurations for the following atoms, using the appropriate noble-gas core abbreviations: (c) Se
Write the condensed electron configurations for the following atoms, using the appropriate noble-gas core abbreviations: (b) Ni
Write the condensed electron configurations for the following atoms, using the appropriate noble-gas core abbreviations: (a) Cs
What is the maximum number of electrons that can occupy each of the following subshells: (a) 3p (b) 5d (c) 2s (d) 4f
Sketch the shape and orientation of the following types of orbitals: (c) d x2-y2
Sketch the shape and orientation of the following types of orbitals: (b) d z2
Sketch the shape and orientation of the following types of orbitals: (a) p x
Sketch the shape and orientation of the following types of orbitals: (a) s
For the table that follows, write which orbital goes with the quantum numbers. Don’t worry about x, y, z subscripts. If the quantum numbers are not allowed, write “not allowed.”
Which of the following represent impossible combinations of n and l: (a) 1p, (b) 4s, (c) 5f, (d) 2d?
Give the values for n, l, and m l for (a) each orbital in the 2p subshell
Give the numerical values of n and l corresponding to each of the following orbital designations: (a) 3p
How many possible values for l and m l are there when (a) n = 5?
How many possible values for l and m l are there when (a) n = 3?
(c) If m l is 2, what are the possible values for l?
(b) For l = 2, what are the possible values of m l?
(a) For n = 4, what are the possible values of l ?
Calculate the uncertainty in the position of (b) a neutron moving at this same speed. (The masses of an electron and a neutron are given in the table of fundamental constants)
Calculate the uncertainty in the position of (a) an electron moving at a speed of (3.00 ∓ 0.01) x 105 m/s
Using Heisenberg’s uncertainty principle, calculate the uncertainty in the position of (b) a proton moving at a speed of (5.00 ± 0.01) x 104 m/s.
Using Heisenberg’s uncertainty principle, calculate the uncertainty in the position of (a) a 1.50-mg mosquito moving at a speed of 1.40 m/s if the speed is known to within ∓0.01 m/s