{"id":4,"date":"2012-06-22T12:24:44","date_gmt":"2012-06-22T12:24:44","guid":{"rendered":"https:\/\/huangshizhaopin.com\/applied-science-and-technology\/courses\/"},"modified":"2017-09-19T15:12:49","modified_gmt":"2017-09-19T19:12:49","slug":"courses","status":"publish","type":"page","link":"https:\/\/huangshizhaopin.com\/academics\/undergraduate-programs\/applied-science-and-technology\/courses\/","title":{"rendered":"Courses"},"content":{"rendered":"

Jump to: Biological Chemistry<\/a>, Biotechnology<\/a>, or Physics<\/a><\/p>\n

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Biological Chemistry<\/h2>\n\n\n <\/a>\n
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Courses<\/h3>\n\n
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BC-295. Credited Internships. 3.00 Credits.<\/strong><\/p>\n

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BC-390. Spec Topics: Biological Chem. 3.00 Credits.<\/strong><\/p>\n

\nConferences and literature research directed to the study of a particular area of biological chemistry. Area selected must coincide with faculty expertise. Prerequisites: BI-240<\/span> CH-366<\/span>; Course Type(s): Capstone, Writing Intensive, Senior Seminar.
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BC-399. Independent Study. 1.00 Credit.<\/strong><\/p>\n

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BC-442. Biochemistry I. 3.00 Credits.<\/strong><\/p>\n

\nProtein structure and function, enzymes, enzyme kinetics and mechanism, metabolism, techniques in protein chemistry. Prerequisites: CH-251<\/span>.
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BC-442L. Biochemistry 1 Lab. 1.00 Credit.<\/strong><\/p>\n

\nProtein purification, enzyme kinetics, enzyme inhibition and western blotting. Prerequisites: CH-251<\/span>; Course Type(s): Lab Courses.
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BC-443. Biochemistry II. 3.00 Credits.<\/strong><\/p>\n

\nBiosesynthesis, hormone regulation, RNA and DNA metabolism, Regulation of gene expression, Techniques in nucleic acid chemistry. Prerequisites: BC-442<\/span>.
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BC-443L. Biochemistry II Lab. 1.00 Credit.<\/strong><\/p>\n

\nBiosesynthesis, hormone regulation, RNA and DNA metabolism, regulation of gene expression, techniques in nucleic acid chemistry. Lab Prerequisites: BC-442<\/span>; Course Type(s): Lab Courses.
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BC-492. Biological Chemistry. 3.00 Credits.<\/strong><\/p>\n

\nThe chemistry and metabolism of biological compounds, including proteins, carbohydrates, lipids and nucleic acids. Enzyme kinetics, bioenergetics and cellular organization. Expression and processing of biological information including replication of DNA, transcription, translation, regulation and recombinant DNA technology.
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Biotechnology<\/h2>\n\n\n <\/a>\n
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BT-110. Science Goes to the Movies. 3.00 Credits.<\/strong><\/p>\n

\nThis course considers the evolution of the science behind the movies - the technical advances that have made modern movie making possible and how the treatment of science, scientific discovery and inventions have evolved particular movie genres. Lectures and movie clips will be used to illustrate the above.
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BT-130. Technology in the 21st Century. 3.00 Credits.<\/strong><\/p>\n

\nThis course will discuss the history, development and scientific breakthroughs that have led to the amazing devices and technologies available to humans today. Particular attention to the people, time and places involved in the development of inventions like TV, radio, computers, phoness, transmission of electric power, movies, and some of the many advances in genetics and medicine.
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BT-140. How Stuff Works. 3.00 Credits.<\/strong><\/p>\n

\nThis course will illustrate how the many devices we use in everyday life were invented and how they work. Devices like the radio, TV, microwave, smart phoness, computers, etc. will be used as examples.
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BT-150. The Gene - Mystery of Inheritance. 3.00 Credits.<\/strong><\/p>\n

\nA Historical and Scientific Journey into the Mystery of Inheritance: In the past 150 years, the concept of the Gene - the molecular particle that contains the information of inheritance - has enriched human understanding of genetics. We now have the tools to control some aspects of genetics and even alter our own evolution. This course will explore this scientific journey - using the contributions of the many scientists who have written a story that is changing living history itself.
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BT-301. Medical Immunology. 3.00 Credits.<\/strong><\/p>\n

\nAn examination of the basics of immunology from the molecular to the cellular and organism level. A discussion of interactions in the healthy and disease states and the use of immunotherapy in medicine and the future of diagnostic immunology in health care. Prerequisites: BI-240<\/span>.
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BT-420. Biomedical Applications of DNA Tech. 3.00 Credits.<\/strong><\/p>\n

\nThis course will focus on the use of current DNA technologies for biomedical applications. Specific emphasis will be placed on the use of these technologies in gene transfer, gene identification, genomics and gene therapy. Prerequisites: BI-240<\/span> BI-350<\/span> CH-252<\/span>.
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BT-429. Special Topics in Biotechnology. 3.00 Credits.<\/strong><\/p>\n

\nThis course will explore current and new technologies developments in biotechnology. It will include the use of computer image analysis, nuclear transplantation, confocal microscopy, and protein separation technology and micro-array hybridyation. Ethical parties will be considered. Prerequisites: BI-240<\/span> BI-350<\/span> CH-252<\/span>.
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BT-440. Research in Biotechnology I. 2.00 Credits.<\/strong><\/p>\n

\nThis laboratory course will include experience in clinical cytogenesis, molecular and biochemical genetic testing, bioinformatics, micro array chip technology, PCR and various other applications of biotechnology techniques for clinical and research work. Prerequisites: BI-240<\/span> BI-350<\/span> CH-252<\/span>; Course Type(s): Senior Seminar.
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BT-441. Research in Biotechnology II. 2.00 Credits.<\/strong><\/p>\n

\nThis laboratory course builds on the previous course (Research in Biotechnology I) and expands the student's knowledge and skills in clinical cytogenesis, molecular and biochemical genetic testing, DNA microscopy, chip technology, PCR and various other applications of biotechnology techniques for clinical and research work. Prerequisites: BT-440<\/span> BI-240<\/span> BI-350<\/span> CH-252<\/span>.
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Physics<\/h2>\n\n\n <\/a>\n
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PC-104. Introduction to Astronomy. 3.00 Credits.<\/strong><\/p>\n

\nA non-mathematical introduction to astronomy. Topics include: solar system, structure and evolution of stars, galaxies, and cosmology. Course Type(s): Core curriculum course.
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PC-110. Science Goes to the Movies. 3.00 Credits.<\/strong><\/p>\n

\nThis course considers the evolution of the science behind the movies - the technical advances that have made modern movie making possible and how the treatment of science, scientific discovery and inventions have evolved particular movie genres. Lectures and movie clips will be used to illustrate the above. Course Type(s): Natural Science, STEM.
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PC-130. Technology in the 21st Century. 3.00 Credits.<\/strong><\/p>\n

\nThis course will discuss the history, development and scientific breakthroughs that have led to the amazing devices and technologies available to humans today. Particular attention to the people, time and places involved in the development of inventions like TV, radio, computers, phoness, transmission of electric power, movies, and some of the many advances in genetics and medicine. Course Type(s): Natural Science, STEM.
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PC-140. How Stuff Works. 3.00 Credits.<\/strong><\/p>\n

\nThis course will illustrate how the many devices we use in everyday life were invented and how they work. Devices like the radio, TV, microwave, smart phoness, computers, etc. will be used as examples. Course Type(s): Natural Science, STEM.
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PC-150. The Gene - Mystery of Inheritance. 3.00 Credits.<\/strong><\/p>\n

\nA Historical and Scientific Journey into the Mystery of Inheritance: In the past 150 years, the concept of the Gene - the molecular particle that contains the information of inheritance - has enriched human understanding of genetics. We now have the tools to control some aspects of genetics and even alter our own evolution. This course will explore this scientific journey - using the contributions of the many scientists who have written a story that is changing living history itself. Course Type(s): Natural Science, STEM.
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PC-185. General Physics I. 3.00 Credits.<\/strong><\/p>\n

\nClassical mechanics. Prerequisites: MA-124<\/span> MA-144<\/span> OR MA-133<\/span>; Course Type(s): Natural Science, STEM.
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PC-186. General Physics II. 3.00 Credits.<\/strong><\/p>\n

\nElectromagnetism. Optics. Atomic and nuclear physics. Prerequisites: PC-185<\/span> MA-124<\/span> MA-144<\/span> OR MA-133<\/span>; Course Type(s): Natural Science, STEM.
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PC-187. General Physics Laboratory I. 1.00 Credit.<\/strong><\/p>\n

\nA laboratory course to accompany Pc185. Lab course fee of $100. Prerequisites: MA-124<\/span> MA-144<\/span> OR MA-133<\/span> Course Type(s): Lab Courses.
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PC-188. General Physics Laboratory II. 1.00 Credit.<\/strong><\/p>\n

\nA laboratory course to accompany Pc186. Lab course fee of $100. Prerequisites: PC-187<\/span> MA-124<\/span> MA-144<\/span> OR MA-133<\/span>; Course Type(s): Lab Courses.
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PC-190. Applied Electronics. 3.00 Credits.<\/strong><\/p>\n

\nDC and AC circuits, semiconductor devices, operational amplifiers, digital logic, and digital computer fundamentals. Prerequisites: PC-191<\/span>.
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PC-191. Applied Electronics Laboratory. 1.00 Credit.<\/strong><\/p>\n

\nA laboratory course to accompany PC190. Lab course fee of $100. Prerequisites: PC-190<\/span>.
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PC-210. LabVIEW Measurement & Automation. 3.00 Credits.<\/strong><\/p>\n

\nIntroduction to National Instruments LabVIEW program and its interaction with various instruments, measurements and automation.
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PC-295. Credited Internships. 3.00 Credits.<\/strong><\/p>\n

\nCo-operative work experience. Course Type(s): Independent Study.
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PC-300. Math Methods in Physics. 3.00 Credits.<\/strong><\/p>\n

\nThis one semester course offers a comprehensive introduction to a variety of mathematical subjects used in the areas of physics with application to specific problems. Topics covered include: Vector and Tensor Analysis, Functions of a complex Variable and Calculus of Residues, Strum-Liouville Theory, Introduction to Special Functions and Fourier Series. Prerequisites: PC-186<\/span> MA-144<\/span>.
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PC-331. Electronics. 4.00 Credits.<\/strong><\/p>\n

\nCircuit principles, diodes and rectifiers, filters transistors as amplifiers and switches, operational amplifiers with applications, oscillators. Lecture and laboratory. Lab course fee of $100. Prerequisites: PC-185<\/span> PC-186<\/span> PC-187<\/span> PC-188<\/span>.
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PC-331L. Electronics Lab. 0.00 Credits.<\/strong><\/p>\n

\nLaboratory for PC-331<\/span> Electronics. Prerequisites: PC-331<\/span>; Course Type(s): Lab Courses.
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PC-337. Modern Physics. 4.00 Credits.<\/strong><\/p>\n

\nThe special theory of relativity, quantum phenomena, atomic and nuclear structure, molecular spectra, radio activity, fission and fusion, elementary particles. Lecture and Laboratory. Lab course fee of $100. Prerequisites: PC-186<\/span>.
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PC-337L. Modern Physics Laboratory. 0.00 Credits.<\/strong><\/p>\n

\nA laboratory course run in conjunction with Pc337. Course Type(s): Lab Courses.
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PC-344. Optics. 4.00 Credits.<\/strong><\/p>\n

\nGeometrical optics, wave nature of light, interference, diffraction, polarization, selected topics in quantum optics. Lecture and laboratory. Lab course fee of $100. Prerequisites: PC-185<\/span> PC-186<\/span> OR PC-190<\/span>.
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PC-350. Photonics. 3.00 Credits.<\/strong><\/p>\n

\nWave-particle duality of light, fiber optics, interferometers, imaging systems, optical spectroscopy, polarization devices, LEDs and Lasers, optical detectors. Prerequisites: PC-185<\/span> PC-188<\/span>.
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PC-355. Thermodynamics & Stat Mechanics. 3.00 Credits.<\/strong><\/p>\n

\nHeat and heat transfer, thermal behavior of gases, the laws of thermodynamics, entropy and enthalpy, partition functions, and engineering applications. Prerequisites: PC-185<\/span> PC-186<\/span>.
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PC-370. Mechanics. 3.00 Credits.<\/strong><\/p>\n

\nStatics and dynamics of particles and rigid bodies. Theory of small vibrations. Gravitation, moving frames of reference. Relativistic dynamics. Prerequisites: PC-185<\/span> PC-186<\/span>.
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PC-374. Electricity and Magnetism I. 3.00 Credits.<\/strong><\/p>\n

\nElectrostatics in free space and in the presence of dielectrics and conductors. Magnetostatics. Electromagnetic induction. The Maxwell equations. Prerequisites: PC-186<\/span>.
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PC-380. Intro to Quantum Mechanics. 3.00 Credits.<\/strong><\/p>\n

\nMathematical foundation of quantum mechanics. Schroedinger's equation with applications. The one-electron atom. Selected topics in atomic and nuclear physics. Prerequisites: PC-186<\/span>.
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PC-390. Independent Study in Physics. 1.00 Credit.<\/strong><\/p>\n

\nThis course provides the opportunity for individual work on an assigned research problem. Prerequisites: PC-185<\/span> PC-186<\/span> MA-274<\/span>; Course Type(s): Capstone, Writing Intensive.
\n<\/p>\n<\/div>\n<\/div>\n\n\n","protected":false},"excerpt":{"rendered":"

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