Soc 101 Assignment 3 Solution 2013 Ford

We live today-at the beginning of the twentieth century-in a world that is intensely worrying, yet full of
the most extraordinary promise for the future. It is a world awash with change, marked by deep conflicts,
tensions and social divisions, as well as by the destructive onslaught of modern technology on the natural
environment. Yet we have possibility of controlling our destiny and shaping our lives for the better that
would have been unimaginable to earlier generations.
How did this world come about? Why are our conditions of life so different from those of our parents and
grandparents? What directions change will take in future? These questions are the prime concern of
sociology, a field of study that consequently has a fundamental role in modern technological life.
Assignment Activity
As a student of Sociology you are expected to understand social world in a better way. The diverse
impacts of social world on an individual’s life are multidimensional. In this regard, you are given a chance
to evaluate your own life (Profile) in context with social world. You are required to write a 1000 word
article based on the following points:
•  How society shaped your life?
•  Impact of social forces on your personal life.
•  How your ascribed status is influenced by achieved status?
•  The varying influence of social forces on your life as compared to your parents and grandparents. 

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Prasad, P. L.; Nafie, L. A.; et al. (1979). “Raman Optical Activity: Spectral Simulation of the Conformer Dependent C-C1 Stretching Vibrations in 1-Chloro-2-methylbutane.” J Raman Spec 8(5): 255-258.

 

Prasad, P. L.; Burow, D. F. (1979). “Raman Optical Activity. Computation of Circular Intensity Differentials by the Atom-Dipole Interaction Model.” J Am Chem Soc 101(4): 800-805.

 

Prasad, P. L.; Burow, D. F. (1979). “Rman Optical Activity: Computation of Circular Intensity Differentials for Bromochlorofluoromethane.” J Am Chem Soc 101(4): 806-812.

 

Prasad, P. L.; Nafie, L. A. (1979). “The Atom Dipole Interaction Model of Raman Optical Activity: Reformulation and Comparison to the General Two-Group Model.” J Chem Phys 70(12): 5582-5588.

 

Richardson, F. S. (1979). “Circular Polarization Differentials in the Luminescence of Chiral Systems.” Optical Acitivity and Chiral Discrimination. S. F. Mason. Dordrecht, D. Reidel Pubishing Co.: 189-217.

 

Stephens, P. J.; Clark, R. (1979). Optical Activity and Chiral Discrimination. S. F. Mason. Dordrecht, D. Reidel: 219.

 

Tonks, D. L.; Page, J. B. (1979). “First-order resonance Raman profile lineshapes from optical absorption lineshapes — a consistency test of standard theoretical assumptions.” Chem Phys Lett 66(3): 449.

 

Andrews, D. L. (1980). “Rayleigh and Raman Optical Activity: An Analysis of the Dependence on Scattering Angle.” J Chem Phys 72(7): 4141-4144.

 

Barron, L. D. (1980). “Raman Optical Activity: A New Probe of Stereochemistry and Magnetic Structure.” Accounts Chem Res 13: 90-96.

 

Barron, L. D. (1980). “Raman optical activity. Spectroscopy for the study of chiral molecules in magnetic fields.” Am Lab 12(3): 64, 66-68, 71-73.

 

Bjarnason, J. O.; Andersen, H. C. (1980). “Quantum Theory of Coherent Raman Scattering by Optically Active Isotropic Materials.” J Chem Phys 72(7): 4132-4140.

 

Blazej, D. C.; Peticolas, W. L. (1980). “Ultraviolet Resonance Raman excitation profiles of pyrimidine nucleotides.” J Chem Phys 72: 3134.

 

Brocki, T.; Moskovits, M.; et al. (1980). “Vibrational Optical Activity. Circular Differential Raman Scattering from a Series of Chiral Terpenes.” J Am Chem Soc 102(2): 495-450.

 

Hansen, A. E.; Bouman, T. C. (1980). “Natural Chiroptical Spectroscopy: Theory and Application.” Adv Chem Phys. I. Prigogine and S. A. Rice. New York, John Wiley & Sons. 44: 545-644.

 

Hug, W.; Kamatari, A.; et al. (1980). “The Vibrational Raman Optical Activity of Deuteratd 1-Methylindanes.” Chem Phys Lett 76(3): 469-474.

 

Imaino, W.; Ramdas, A. K.; et al. (1980). “Linear Wave-Vector Dependence of Optical Phonon Frequencies in Bismuth Germanium Oxide in the Vicinity of the Brillouin Zone Center.” Phys Rev B 22(12): 5679-5696.

 

Nafie, L. A.; Polavarapu, P. L.; et al. (1980). “Vibrational Optical Activity in Perturbed Degenerate Modes: Concepts and Model Calculations in 1-Substituted Haloethanes.” J Chem Phys 73: 3530-3540.

 

Polavarapu, P. L.; Diem, M.; et al. (1980). “Vibrational Optical Activity in Para-Substituted 1-Methylcyclo-hex-1-enes.” J Am Chem Soc 102: 5549-5453.

 

Polavarapu, P. L.; Nafie, L. A. (1980). “Vibrational Optical Activity: Comparison of Theoretical and Experimental Results for (+)-(3R)-Methylcyclohexanone.” J Chem Phys 73: 1567-1575.

 

Prasad, P. L.; Nafie, L. A. (1980). “Experimental Observations and Theoretical Predictions of Raman Optical Activity.” Proceedings of the VIIIth International Conference on Raman Spectroscopy. W. F. Murphy. New York, North-Holland: 252-253.

 

Srinivasan, K.; Kamatari, A.; et al. (1980). “The vibrational raman optical activity of the methyl group.” C. R.- Conf Int Spectrosc Raman, 7th: 254-255.

 

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Su, C. N.; Keiderling, T. A. (1980). “Conformation of Dimethyl Tartrate in Solution. Vibrational Circular Dichroism Results.” J Am Chem Soc 102: 511-515.

 

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Waki, H.; Higuchi, S.; et al. (1980). “Raman Circular Intensity Differential Spectra of Some Chiral Compounds with Related Structures.” Spectrochimica Acta 36A: 659-664.

 

Barron, L. D.; Vrbancich, J. (1981). “Temperature Dependence of the Low-Frequency Vibrational Optical Activity of a-Phellandrene.” JCS Chem Comm: 771-772.

 

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