(a)
Interpretation:
The diagram that represents the
Concept introduction:
Nuclear spin shows the complete
Answer to Problem 16.43E
The diagram that represents the
Explanation of Solution
The
Where,
•
The value of
The value of
Substitute value of
Substitute value of
Substitute value of
Therefore, the
The diagram that represents the
Figure 1
The diagram that represents the
(b)
Interpretation:
The diagram that represents the
Concept introduction:
Nuclear spin shows the complete angular momentum corresponding to the nucleus. It is represented by
Answer to Problem 16.43E
The diagram that represents the
Explanation of Solution
The
Where,
•
The value of
The value of
Substitute value of
Substitute value of
Substitute value of
Substitute value of
Substitute value of
Therefore, the
The diagram that represents the
Figure 2
The diagram that represents the
(c)
Interpretation:
The diagram that represents the
Concept introduction:
Nuclear spin shows the complete angular momentum corresponding to the nucleus. It is represented by
Answer to Problem 16.43E
The diagram that represents the
Explanation of Solution
The
Where,
•
The value of
The value of
Substitute value of
Therefore, the
The diagram that represents the
Figure 3
The diagram that represents the
(d)
Interpretation:
The diagram that represents the
Concept introduction:
Nuclear spin is the total angular momentum of the nucleus. It is represented by
Answer to Problem 16.43E
The diagram that represents the
Explanation of Solution
The
Where,
•
The value of
The value of
Substitute value of
Substitute value of
Substitute value of
Therefore, the
The diagram that represents the
Figure 4
The diagram that represents the
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Chapter 16 Solutions
PHYSICAL CHEMISTRY-STUDENT SOLN.MAN.
- Singly-ionized carbon atoms are accelerated through 1050 V and passed into a mass spectrometer to determine the isotopes present. The magnetic field strength in the spectrometer is 0.180 T. (a) Determine the orbital radii for the 12C and 13C isotopes as they pass through the field. cm (12C) cm (13C) (b) Show that the ratio of the radii may be written in the form m1 = V by verifying that your radii in part (a) satisfy this formula. m1 m-arrow_forwardQ1a) Why electron have spin half value? B) In multiplicity r=2S+1 as we see when S increase r also increase but this violate Pauli exclusion principle. Why?arrow_forwardHow do you convert 435.835 λ(nm) to v (s-1)arrow_forward
- 8C.4 (a) the moment of inertia of a CH4 molecule is 5.27 x 10^-47 kg m^2. What is the minimum energy needed to start it rotating? 8C.5 (a) use the data in 8C.4 (a) to calculate the energy needed excite a CH4 molecule from a state with l=1 to a state with l=2arrow_forwardUse the Tanabe-Sugano diagram to indicate the electronic transitions for the configurations below, i.e. for example, 'A2 →³T2 is one transition for ³F. (a) d³ (b) dºarrow_forwardonly answer question 7 please.arrow_forward
- 15. The far-infrared spectrum of HI consists of a series of equally spaced lines with Δν(bar) = 12.8 ^-1 cm. What are (a) the moment of inertia and (b) the internuclear distance?arrow_forwardIf a sample is placed in a magnetic field of applied field strength = 1.1 Tesla, the spin-up and spin-down 1H nuclei show an energy difference that corresponds to a photon with frequency = 60 MHz. If this same sample is moved into the vicinity of a magnetic field of strength = 5.5 Tesla, what will be the frequency of a photon that could match the energy difference of the spin-up and spin-down states?arrow_forward5. Determine yy for each of the following wavefunctions: (i =V-1) a) y (x) = e b) y(0) = sin 0 +i cose c) w(x) = A · e*.arrow_forward
- Predict the ground-state electronic configuration of (a) a C atom. (b) a Ti2+ ion. and (c) a Mn2+ ion.arrow_forward(a) For C6H6, the number of vibrational modes is ??? (b) For titanium (Z=22), its electron configuration for the ground state is ??? (c) For ³D, (i) the possible values of J are ??? and (ii) the total degeneracy is ???arrow_forwardsolve carrow_forward
- Physical ChemistryChemistryISBN:9781133958437Author:Ball, David W. (david Warren), BAER, TomasPublisher:Wadsworth Cengage Learning,