The (astro)physics of stars and planets, their observed variety, their structure, formation and evolution. Introduction to telescopes and instrumentation.
The (astro)physics of stars and planets, their observed variety, their structure, formation and evolution. Introduction to telescopes and instrumentation.
The (astro)physics of stellar systems, galaxies, and the Universe, their structure, formation, and evolution.
Scholarly discussion of the probability that there are planets with life elsewhere in the universe, from the perspective of current ideas concerning the origin and evolution of the universe, the solar system and life. Search techniques and possibilities for interstellar travel and space colonies are discussed.
Credit course for supervised participation in faculty research project. Details at https://www.artsci.utoronto.ca/current/academics/research-opportunities/research-opportunities-program . Not eligible for CR/NCR option.
A hands-on introduction to telescopes and observational astronomy for students with little experience in the physical sciences. Through laboratory exercises and observations of the sky, students will learn the techniques that have enabled the major discoveries of modern astronomy, from the expansion of the universe to the existence of Earth-like planets orbiting other stars. Hands-on activities will teach how telescopes work and how we can measure the distances, motion, and chemical composition of celestial objects. Basic arithmetic is used, but no advanced mathematics. This course is intended for students without a formal science background to gain experience with hands-on observational astronomy.
An in-depth exploration of astronomy, the Solar System, and the night sky through the lens of Indigenous knowledges, primarily that of Indigenous peoples from Turtle Island. Indigenous peoples have lived on Turtle Island since time immemorial and have a sophisticated relationship with the night sky that is influenced by their worldviews and their relationships with the land. In this course, students will learn about Indigenous perspectives for understanding nature and astronomy and learn to understand astronomy through these perspectives. Students will also learn about the intersection of western astronomy and ongoing colonization to understand the responsibilities of western astronomers for respecting treaties and Indigenous rights as well as presenting an Indigenous lens regarding space exploration.
The formation, equilibrium and evolution of structure on all astronomical scales from the largest to the smallest: universe, clusters of galaxies, galaxies, clusters of stars, gas clouds and stars.
Through experiment and observation, develop the core skills to collect, reduce, and interpret astronomical data. Develop understanding and usage of telescopes, instruments, and detectors; reduction and analysis methods; simulations and model fitting; data and error analysis.
Through experiment and observation, develop the core skills to collect, reduce, and interpret astronomical data. Develop understanding and usage of telescopes, instruments, and detectors; reduction and analysis methods; simulations and model fitting; data and error analysis. This course is an expanded version of AST325H1 that gives a wider exposure to practical astronomy.
An instructor-supervised group project in an off-campus setting. Details at https://www.artsci.utoronto.ca/current/academics/research-opportunities/research-excursions-program. Not eligible for CR/NCR option.
An instructor-supervised group project in an off-campus setting. Details at https://www.artsci.utoronto.ca/current/academics/research-opportunities/research-excursions-program. Not eligible for CR/NCR option.
Credit course for supervised participation in faculty research project. Details at https://www.artsci.utoronto.ca/current/academics/research-opportunities/research-opportunities-program. Not eligible for CR/NCR option.
A literature study that develops methods and skills applicable to research in the physical sciences, with an emphasis on communication, including writing proposals and reports, and delivering presentations. This course is intended for students in the final year of the Astronomy & Astrophysics Major. Students are required to attend the weekly departmental colloquia and G2000 talks. Not eligible for CR/NCR option.
A research project done in consultation with an individual staff member in the Department leading to a detailed written report and oral presentation. This course is intended for students in the final year of the Astronomy and Physics specialist program. Students must enrol with the Undergraduate Secretary of the Department. Enrolment is guaranteed only for specialist students with at least a B average in program courses and requires identifying a supervisor. Not eligible for CR/NCR option.
An individual study program chosen by the student with the advice of, and under the direction of, a staff member. Not eligible for CR/NCR option.
An individual study program chosen by the student with the advice of, and under the direction of, a staff member. Not eligible for CR/NCR option.
An individual study program chosen by the student with the advice of, and under the direction of, a staff member. Not eligible for CR/NCR option.
An opportunity for specialized individual research in bioinformatics and computational biology by arrangement with a supervisor. Approval of the application by the BCB coordinator is required. Not eligible for CR/NCR option.
Practical introduction to concepts, standards and tools for the implementation of strategies in bioinformatics and computational biology. Student led discussions plus a strong component of hands-on exercises.
Current approaches to using the computer for analyzing and modeling biology as integrated molecular systems. Lectures plus hands-on practical exercises. The course extends and complements an introductory Bioinformatics course.
An opportunity for advanced specialized individual research in bioinformatics and computational biology by arrangement with a supervisor. Approval of the application by the BCB coordinator is required. BCB330Y1 is a recommended preparation for this course however students should not normally conduct their project in the same laboratory or continue their previous project. Not eligible for CR/NCR option.
This introductory course in biochemistry will cover the fundamentals of proteins, enzymes, biological membranes and the metabolism of carbohydrates and lipids for energy production. This course is intended for students who are NOT taking BCH242Y1 as part of their program.
This introductory course in biochemistry will serve as the foundation for upper-level BCH courses taken by students specializing in biochemistry and related specialist programs. The major topics include protein structure, enzyme mechanisms and function, gene expression, lipid and membrane structure and function, and the metabolism of carbohydrates, lipids and amino acids for energy production. Laboratory techniques will also be introduced to understand the role of biochemistry for research. Please note that there are five laboratories accompanying this course. (Lab fees:$10)
Credit course for supervised participation in faculty research project. Details at https://www.artsci.utoronto.ca/current/academics/research-opportunities/research-opportunities-program. Not eligible for CR/NCR option.
Nucleic acids and flow of information in biological systems. Information storage and transmission by nucleic acids, as well as new molecular technologies will be discussed. Registration in one of the tutorial sessions is mandatory. Note: Students that have a SDF in BCH210H1 are not permitted to enrol in BCH311H1 until a final passing grade (50%) appears on the transcript. BCH2** WITH COURSE EXCLUSION TO BCH210H1 meets the prerequisite requirement for BCH311H1.
Proteins are the main functional units in the cell. In this course, a detailed overview of protein structure and function will be given with strong emphasis on the basic principles in the field. Students will be introduced to folded and intrinsically disordered proteins. Biophysical methods to study protein stability and folding will be discussed, as well as experimental approaches to determine protein structure and function. Students will be introduced to catalysis, kinetics, and the mechanisms that regulate enzyme activity. Finally, proteomic methods to studying protein networks in cells will be presented. The course will offer a solid basis in protein biochemistry. It is recommended for those interested in pursuing graduate studies or professional degrees in health or medicine.
This course is designed to provide hands-on experience at an introductory level, employing a variety of biochemical techniques commonly used in research and clinical diagnostic laboratories. This course is intended for students who are not proceeding further in biochemistry. It is highly recommended that students take this course in their third year as space is limited and priority will go to third-year students. This course will be offered in the FALL & WINTER terms. Attendance in the first week of class is mandatory in order to receive safety information and laboratory protocols. (Enrolment limited.) (Lab fees: $40)
This course provides opportunities to pursue an original individual research project in a particular area of biochemistry, under the direct supervision of a Biochemistry Department faculty member. Students are responsible for arranging for supervision by a Biochemistry Department faculty member. To apply for enrolment, students are required to complete the application form by contacting the Course Coordinator by the end of April. Not eligible for CR/NCR option.
This course provides an opportunity for individual research with a specific topic of study. Students are mentored and supervised by research scientists and faculty associated with the University of Toronto. It provides students an opportunity to enhance and apply their knowledge and understanding learned in other courses. Direct supervision must be provided by a faculty member within the Department of Biochemistry. Not eligible for the CR/NCR option.
This course provides opportunities to pursue an original individual research project in a particular area of biochemistry, under the direct supervision of a Biochemistry Department faculty member. Students are responsible for arranging for supervision by a Biochemistry Department faculty member. To apply for enrolment, students are required to complete the application form by contacting the Course Coordinator before the end of August. Not eligible for CR/NCR option.