![]() The topics explored in this course include: human proportions, scaling laws, locomotion, strength and balance, elasticity, basics of blood circulation. ![]() This Honors supplement to the firrst half of algebra-based introductory Physics sequence for life sciences applies physics concepts to the human body and its interactions with the physical environment. PREQ: PHYS 0110 or 0174 or 0475 with a minimum grade of C Subjects covered in the course include: thermodynamics electricity and magnetism (electrostatics to electromagnetic waves) geometrical and physical optics relativity and quantum physics. Credit will not be given for both this sequence and the Physics 0174, 0175 sequence. The introductory laboratory course to be associated with this sequence is Physics 0212 (see below). This course is appropriate for non-science majors, and for those majoring in the social, psychological and life sciences that do not need the more mathematically oriented course required of engineering and physical science students (Physics 0174,0175). The emphasis of the course is on a clear understanding of the underlying principles rather than on mathematical formalism and problem-solving (although some attention is given to these aspects of physics). This is the second term in a two-term lecture-demonstration sequence that presents the elements of both classical and modern physics. Subjects covered in the course include: kinematics Newtonian mechanics heat and heat transfers mechanical waves and sound. The introductory laboratory course to be associated with this sequence is Physics 0212 (see below) which should be taken after Physics 0110. This is the first term in a two-term lecture-demonstration sequence that presents the elements of both classical and modern physics. Topics covered include: kinematics, Newton's Laws of Motion conservation of total mechanical energy, total linear momentum, and total angular momentum rotational kinematics and dynamics simple harmonic motion behavior of fluids heat and heat transfer mechanical waves and sounds. In that case credit would not be given for both this course and either PHYS 0110 of 0174. It could be used for those students as a preparatory course prior to tackling the more mathematically rigorous PHYS 0110 or PHYS 0174. The mathematical level of this course will not be adequate for those students who plan to apply to Medical School. ![]() This course is intended for non-science majors and for students from the School of Health and Rehabilitation Sciences. The emphasis of this course, however, is on a clear understanding of the underlying principles of physics, with a reduced emphasis on mathematics than would be used in PHYS 0110. As such, this course covers the same general topics as PHYS 0110. This course presents the conceptual basis of introductory classical physics. This course fulfills the Physical Science course requirement for School of Arts and Sciences students. Along the way, we will discuss whether travel to other stars is possible, conditions for the existence of life, and whether other "dimensions" exist. Starting with Newtonian physics, this course surveys modern physics including Quantum Mechanics and Einstein's Theory of Relativity. Students will be encouraged to bring in their own examples of science fiction literature that highlight some physics concept (or misconception) to share with the rest of the class. We will read several short stories and novels from the leading science fiction writers we will also have in-class demonstrations of things like lasers, cryogenics, and electric fields. Our goal will be to understand science terms and claims when we encounter them in fiction and the popular press. What do these words really mean? How much of what we see in science fiction is based on real science and how much is pure fantasy? This course will emphasize the meanings of science terms and the way scientists really work, without getting bogged down in mathematics. Words like "force," "field," "radiation," "black hole" and "antimatter" are part of our culture science fiction movies and popular science magazines use them all the time.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |