This course is a continuation of CHIN 201. By the end of the semester, most of the basic grammatical structures will be addressed. This course continues to help students develop higher proficiency level on the four skills. Class will be conducted mostly in Chinese. There will be three meetings and two drill sessions each week. This course prepares students for CHIN 301.
Requisite: CHIN 201 or equivalent. Spring semester. Senior Lecturer Li.
This course is a continuation of CHIN 201. By the end of the semester, most of the basic grammatical structures will be addressed. This course continues to help students develop higher proficiency level on the four skills. Class will be conducted mostly in Chinese. There will be three meetings and two drill sessions each week. This course prepares students for CHIN 301.
Requisite: CHIN 201 or equivalent. Spring semester. Senior Lecturer Li.
A continuation of CHIN 101. By the end of the course, students are expected to have a good command of Mandarin pronunciation, the basic grammar structures, an active vocabulary of 700 Chinese characters, and basic reading and writing skills in the Chinese language. The course meets five times per week (lectures on MWF and drill sessions on TTh). This course prepares students for CHIN 201 (Second-year Chinese I).
Requisite: CHIN 101 or equivalent. Discussion sections limited to 8 students. Spring semester. Senior Lecturer Teng.
A continuation of CHIN 101. By the end of the course, students are expected to have a good command of Mandarin pronunciation, the basic grammar structures, an active vocabulary of 700 Chinese characters, and basic reading and writing skills in the Chinese language. The course meets five times per week (lectures on MWF and drill sessions on TTh). This course prepares students for CHIN 201 (Second-year Chinese I).
Requisite: CHIN 101 or equivalent. Discussion sections limited to 8 students. Spring semester. Senior Lecturer Teng.
Independent reading course. A full course.
Admission with consent of the instructor. Fall and spring semesters. The Department.
(Offered as PHYS 400, BIOL 400, BCBP 400, and CHEM 400) How do the physical laws that dominate our lives change at the small length and energy scales of individual molecules? What design principles break down at the sub-cellular level and what new chemistry and physics becomes important? We will answer these questions by looking at bio-molecules, cellular substructures, and control mechanisms that work effectively in the microscopic world. How can we understand both the static and dynamic shape of proteins using the laws of thermodynamics and kinetics?
