8. A linear conjugated carbon-chain molecule contains eight carbon atoms with bondlengths of 0.15 nm. What is the probability density for an n = 2 л-electron at the location of the 2nd carbon atom? (A) 0.64 nm¹ (B) 2.4 nm-¹ (C) 0.83 nm (D) 3.4 nm (E) 1.2 nm¹ 9. What wavelength does a photon require in order to induce the lowest-energy electronic transition from the ground state of hexatriene? The molecule is pictured below with its system of conjugated bonds, each of bondlength 0.15 nm. (A) (B) 725 nm 601 nm (C) 485 nm (D) 400 nm (E) 265 nm H H H > & gag g H = C1 C2 C3 C4 C5 = C6 - - H H H H
8. A linear conjugated carbon-chain molecule contains eight carbon atoms with bondlengths of 0.15 nm. What is the probability density for an n = 2 л-electron at the location of the 2nd carbon atom? (A) 0.64 nm¹ (B) 2.4 nm-¹ (C) 0.83 nm (D) 3.4 nm (E) 1.2 nm¹ 9. What wavelength does a photon require in order to induce the lowest-energy electronic transition from the ground state of hexatriene? The molecule is pictured below with its system of conjugated bonds, each of bondlength 0.15 nm. (A) (B) 725 nm 601 nm (C) 485 nm (D) 400 nm (E) 265 nm H H H > & gag g H = C1 C2 C3 C4 C5 = C6 - - H H H H
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Transcribed Image Text:8. A linear conjugated carbon-chain molecule contains eight carbon atoms with bondlengths of
0.15 nm. What is the probability density for an n = 2 л-electron at the location of the 2nd
carbon atom?
(A)
0.64 nm¹
(B)
2.4 nm-¹
(C)
0.83 nm
(D)
3.4 nm
(E)
1.2 nm¹
9. What wavelength does a photon require in order to induce the lowest-energy electronic
transition from the ground state of hexatriene? The molecule is pictured below with its
system of conjugated bonds, each of bondlength 0.15 nm.
(A)
(B)
725 nm
601 nm
(C)
485 nm
(D)
400 nm
(E)
265 nm
H
H
H
> & gag g
H
=
C1 C2 C3 C4 C5 = C6
-
-
H
H
H
H
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