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question 1 are different sizes. Why is that? Select one:
A. Solutions for the Schrödinger equation produce different
eigenstates that have variable shapes.
B. Panel a represents the orbital when the electron spins are
antiparallel and panel e represents it when they are parallel; the
rest show the transition between those two extremes.
C. The relative distance between the two hydrogen nuclei cause
the shape of the σ1s orbital to vary. It is most likely that
electrons will be found near the two hydrogen nuclei.
D. Each orbital representation depicts a different energy level
solution for H2.
2. The most likely location for an electron in
H2 is halfway between the two hydrogen nuclei.
Select one:
True
False
3. Suppose that an electron is removed from
H2 to make H2+. That
H2+ will be a stable molecule. (That is,
will it continue to exist as H2+.)
Select one:
True
False
4.
What is the primary reason that the σ1s orbital
has the shape shown in the figures?
Select one:
A. Adding electrons to the 1s hydrogen orbital changes its
shape.
B. The interaction of the spins of the electrons with the spins
of the hydrogen nuclei alters the electronic energy of the
electrons in the molecule H2.
The 2px wavefunction is bilobed in shape.
C. The 1s wavefunction is spherical in shape.
D. The two positive nuclei attract negative electrons while the
electrons repel each other as do the two nuclei.
. (a) (b) 08 (c) (d) ot Eo*-- E Es 1s in Εσ (e)