Atmospheric Science Honours (B.Sc.) (75 credits)
Offered by: Atmospheric & Oceanic Sciences (Faculty of Science)
Degree: Bachelor of Science
Program credit weight: 75
Program Description
72-75 credits
The B.Sc.; Honours in Atmospheric Science provides advanced training in atmospheric science, and it includes a research component.
Students can be admitted to the Honours program after completion of the U1 year of the Major in Atmospheric Science program with a minimum GPA of 3.30. Students having completed a U1 year in a different program with high standing may be admitted to the Honours program on the recommendation of that department.
Degree Requirements — B.Sc.
This program is offered as part of a Bachelor of Science (B.Sc.) degree.
To graduate, students must satisfy both their program requirements and their degree requirements.
- The program requirements (i.e., the specific courses that make up this program) are listed under the Course Tab (above).
- The degree requirements—including the mandatory Foundation program, appropriate degree structure, and any additional components—are outlined on the Degree Requirements page.
Students are responsible for ensuring that this program fits within the overall structure of their degree and that all degree requirements are met. Consult the Degree Planning Guide on the SOUSA website for additional guidance.
Note: For information about Fall 2025 and Winter 2026 course offerings, please check back on May 8, 2025. Until then, the "Terms offered" field will appear blank for most courses while the class schedule is being finalized.
Required Courses (27 credits)
| Course | Title | Credits |
|---|---|---|
| ATOC 214 | Introduction: Physics of the Atmosphere. | 3 |
Introduction: Physics of the Atmosphere. Terms offered: this course is not currently offered. An introduction to key physical processes operating in the atmosphere, designed for students in science and engineering. Topics typically include: composition of the atmosphere; vertical structure; heat transfer; solar and terrestrial radiation and Earth's energy balance; seasonal and daily temperature changes; humidity and the formation of clouds and precipitation; stability of tropospheric air layers; applications of adiabatic charts. | ||
| ATOC 312 | Rotating Fluid Dynamics. | 3 |
Rotating Fluid Dynamics. Terms offered: this course is not currently offered. Fundamentals of fluid motion on a rotating sphere: Rotating coordinate systems, the Lagrangian time derivative, and equations of motion. The geostrophic approximation and thermal wind balance; departures from geostrophy, such as frictional Ekman layers, inertial oscillations, and the gradient wind balance. The shallow water equations, including potential vorticity conservation, quasigeostrophy, and simple wave solutions. | ||
| ATOC 315 | Thermodynamics and Convection. | 3 |
Thermodynamics and Convection. Terms offered: this course is not currently offered. Buoyancy, stability, and vertical oscillations. Dry and moist adiabatic processes. Resulting dry and precipitating convective circulations from the small scale to the global scale. Mesoscale precipitation systems from the cell to convective complexes. Severe convection, downbursts, mesocyclones. | ||
| ATOC 480 | Honours Research Project. | 3 |
Honours Research Project. Terms offered: Summer 2025 The student will carry out a research project under the supervision of a member of the staff. The student will be expected to write a report and present a seminar on the work. | ||
| COMP 208 | Computer Programming for Physical Sciences and Engineering . | 3 |
Computer Programming for Physical Sciences and Engineering . Terms offered: this course is not currently offered. Programming and problem solving in a high level computer language: variables, expressions, types, functions, conditionals, loops, objects and classes. Introduction to algorithms such as searching and sorting. Modular software design, libraries, file input and output, debugging. Emphasis on applications in Physical Sciences and Engineering, such as root finding, numerical integration, diffusion, Monte Carlo methods. | ||
| MATH 222 | Calculus 3. | 3 |
Calculus 3. Terms offered: Summer 2025 Taylor series, Taylor's theorem in one and several variables. Review of vector geometry. Partial differentiation, directional derivative. Extreme of functions of 2 or 3 variables. Parametric curves and arc length. Polar and spherical coordinates. Multiple integrals. | ||
| MATH 223 | Linear Algebra. | 3 |
Linear Algebra. Terms offered: this course is not currently offered. Review of matrix algebra, determinants and systems of linear equations. Vector spaces, linear operators and their matrix representations, orthogonality. Eigenvalues and eigenvectors, diagonalization of Hermitian matrices. Applications. | ||
| MATH 314 | Advanced Calculus. | 3 |
Advanced Calculus. Terms offered: this course is not currently offered. Derivative as a matrix. Chain rule. Implicit functions. Constrained maxima and minima. Jacobians. Multiple integration. Line and surface integrals. Theorems of Green, Stokes and Gauss. Fourier series with applications. | ||
| MATH 315 | Ordinary Differential Equations. | 3 |
Ordinary Differential Equations. Terms offered: this course is not currently offered. First order ordinary differential equations including elementary numerical methods. Linear differential equations. Laplace transforms. Series solutions. | ||
Complementary Courses (45-48 credits)
Note: Students are required to fulfill the core complementary requirements along with one of the four streams listed below. In cases of overlap, each course can only be used once toward the satisfaction of the core complementary courses or the chosen stream.
Core (24-25 credits) (24 credits)
3-6 credits selected from:
| Course | Title | Credits |
|---|---|---|
| ATOC 215 | Oceans, Weather and Climate. | 3 |
Oceans, Weather and Climate. Terms offered: this course is not currently offered. An introduction to key physical and dynamical processes in the oceans and atmosphere. Topics typically include air-sea-ice interactions, laws of motion, the geostrophic and thermal wind relations, general circulation of the atmosphere and oceans, weather, radiative balance, climate sensitivity and variability, role of the atmosphere and oceans in climate. | ||
| ATOC 219 | Introduction to Atmospheric Chemistry. 1 | 3 |
Introduction to Atmospheric Chemistry. Terms offered: this course is not currently offered. An introduction to the basic topics in atmospheric chemistry. The fundamentals of the chemical composition of the atmosphere and its chemical reactions. Selected topics such as smog chamber, acid rain, and ozone hole will be examined. | ||
| CHEM 219 | Introduction to Atmospheric Chemistry. 1 | 3 |
Introduction to Atmospheric Chemistry. Terms offered: this course is not currently offered. An introduction to the basic topics in atmospheric chemistry. The fundamentals of the chemical composition of the atmosphere and its chemical reactions. Selected topics such as; a smog chamber, acid rain, and the ozone hole, will be examined. | ||
- 1
If chosen, students may take either ATOC 219 Introduction to Atmospheric Chemistry. or CHEM 219 Introduction to Atmospheric Chemistry..
3 credits selected from:
| Course | Title | Credits |
|---|---|---|
| ATOC 357 | Atmospheric and Oceanic Science Laboratory. | 3 |
Atmospheric and Oceanic Science Laboratory. Terms offered: this course is not currently offered. Students will gain hands-on experience in several fundamental atmospheric and oceanic science topics through practical experimentation. A diverse set of experiments will be conducted, ranging from in situ observations in Montreal, to remote sensing of clouds and radiation, to laboratory chemistry and water-tank experiments. As a background for these experiments, students will receive training on sensor principles and measurement error analysis, as well as the fundamental physical processes of interest in each experiment. They will learn to operate, and physically interpret data from, various sensors for in situ and remote observation of meteorological variables. Their training will also extend to operational weather observations, analysis, and forecasting. | ||
| PHYS 257 | Experimental Methods 1. | 3 |
Experimental Methods 1. Terms offered: this course is not currently offered. Introductory laboratory work and data analysis as related to mechanics, optics and thermodynamics. Introduction to computers as they are employed for laboratory work, for data analysis and for numerical computation. Previous experience with computers is an asset, but is not required. | ||
3 credits selected from:
| Course | Title | Credits |
|---|---|---|
| PHYS 230 | Dynamics of Simple Systems. | 3 |
Dynamics of Simple Systems. Terms offered: this course is not currently offered. Translational motion under Newton's laws; forces, momentum, work/energy theorem. Special relativity; Lorentz transforms, relativistic mechanics, mass/energy equivalence. Topics in rotational dynamics. Noninertial frames. | ||
| PHYS 251 | Honours Classical Mechanics 1. | 3 |
Honours Classical Mechanics 1. Terms offered: this course is not currently offered. Newton's laws, work energy, angular momentum. Harmonic oscillator, forced oscillations. Inertial forces, rotating frames. Central forces, centre of mass, planetary orbits, Kepler's laws. | ||
3 credits selected from:
| Course | Title | Credits |
|---|---|---|
| PHYS 232 | Heat and Waves. | 3 |
Heat and Waves. Terms offered: this course is not currently offered. The laws of thermodynamics and their consequences. Thermodynamics of P-V-T systems and simple heat engines. Free, driven, and damped harmonic oscillators. Coupled systems and normal modes. Fourier methods. Wave motion and dispersion. The wave equation. | ||
| PHYS 253 | Thermal Physics. | 3 |
Thermal Physics. Terms offered: this course is not currently offered. Energy, work, heat; first law. Temperature, entropy; second law. Absolute zero; third law. Equilibrium, equations of state, gases, liquids, solids, magnets; phase transitions. | ||
3 credits selected from:
| Course | Title | Credits |
|---|---|---|
| CHEM 213 | Introductory Physical Chemistry 1: Thermodynamics. | 3 |
Introductory Physical Chemistry 1: Thermodynamics. Terms offered: this course is not currently offered. Thermodynamics. Topics include gas laws, kinetic theory of collisions, heat capacity, enthalpy, thermochemistry, bond energies, the entropy and free energy functions, absolute entropies, Maxwell relations and chemical and thermodynamic equilibrium states, phase rule and phase diagrams, ideal solutions, colligative properties, solubility, electrochemistry, Debye-Hückel Theory. | ||
| MATH 319 | Partial Differential Equations . | 3 |
Partial Differential Equations . Terms offered: this course is not currently offered. First order equations, geometric theory; second order equations, classification; Laplace, wave and heat equations, Sturm-Liouville theory, Fourier series, boundary and initial value problems. | ||
6-10 credits selected from:
| Course | Title | Credits |
|---|---|---|
| CHEM 273 | Introductory Physical Chemistry 2: Kinetics and Methods. | 3 |
Introductory Physical Chemistry 2: Kinetics and Methods. Terms offered: this course is not currently offered. Kinetics: Transition State Theory, complex reactions, free-radical reactions, chain reactions, catalysis, reactions at surfaces, ionic effects of reactions in solution, photochemistry. Methods: physical chemistry laboratory, differential equations and linear algebra applied to physical chemistry, computation methods for data analysis and modeling | ||
| CHEM 367 | Instrumental Analysis 1. | 3 |
Instrumental Analysis 1. Terms offered: this course is not currently offered. An introduction to modern instrumental analysis emphasizing chromatography, atomic spectroscopy and computational data analysis. Analytical methods to be examined in detail include gas-liquid and high performance liquid chromatography, LC mass spectrometry, and common methods of atomic determinations using flames/furnaces/plasma sources. | ||
| CHEM 575 | Chemical Kinetics. | 3 |
Chemical Kinetics. Terms offered: this course is not currently offered. Kinetic laws, measurement of reaction rates, transition state and collision theory, experimental techniques in reaction kinetics, reaction mechanisms, RRKM theory, Marcus theory of electron transfer, photochemistry and catalysis. Recent developments and their application to chemical and biological problems. Elementary reactions in gas, solution and solid phases and on surfaces. | ||
| COMP 551 | Applied Machine Learning. | 4 |
Applied Machine Learning. Terms offered: this course is not currently offered. Selected topics in machine learning and data mining, including clustering, neural networks, support vector machines, decision trees. Methods include feature selection and dimensionality reduction, error estimation and empirical validation, algorithm design and parallelization, and handling of large data sets. Emphasis on good methods and practices for deployment of real systems. | ||
| MATH 203 | Principles of Statistics 1. 1 | 3 |
Principles of Statistics 1. Terms offered: Summer 2025 Examples of statistical data and the use of graphical means to summarize the data. Basic distributions arising in the natural and behavioural sciences. The logical meaning of a test of significance and a confidence interval. Tests of significance and confidence intervals in the one and two sample setting (means, variances and proportions). | ||
| MATH 317 | Numerical Analysis. | 3 |
Numerical Analysis. Terms offered: this course is not currently offered. Error analysis. Numerical solutions of equations by iteration. Interpolation. Numerical differentiation and integration. Introduction to numerical solutions of differential equations. | ||
| MATH 319 | Partial Differential Equations . | 3 |
Partial Differential Equations . Terms offered: this course is not currently offered. First order equations, geometric theory; second order equations, classification; Laplace, wave and heat equations, Sturm-Liouville theory, Fourier series, boundary and initial value problems. | ||
| MATH 323 | Probability. | 3 |
Probability. Terms offered: Summer 2025 Sample space, events, conditional probability, independence of events, Bayes' Theorem. Basic combinatorial probability, random variables, discrete and continuous univariate and multivariate distributions. Independence of random variables. Inequalities, weak law of large numbers, central limit theorem. | ||
| MATH 324 | Statistics. | 3 |
Statistics. Terms offered: this course is not currently offered. Sampling distributions, point and interval estimation, hypothesis testing, analysis of variance, contingency tables, nonparametric inference, regression, Bayesian inference. | ||
| PHYS 333 | Thermal and Statistical Physics. | 3 |
Thermal and Statistical Physics. Terms offered: this course is not currently offered. Introductory equilibrium statistical mechanics. Quantum states, probabilities, ensemble averages. Entropy, temperature, Boltzmann factor, chemical potential. Photons and phonons. Fermi-Dirac and Bose-Einstein distributions; applications. | ||
| PHYS 340 | Majors Electricity and Magnetism. 2 | 3 |
Majors Electricity and Magnetism. Terms offered: this course is not currently offered. The electrostatic field and scalar potential. Dielectric properties of matter. Energy in the electrostatic field. Methods for solving problems in electrostatics. The magnetic field. Induction and inductance. Energy in the magnetic field. Magnetic properties of matter. Maxwell's equations. The dipole approximation. | ||
| PHYS 342 | Majors Electromagnetic Waves. 3 | 3 |
Majors Electromagnetic Waves. Terms offered: this course is not currently offered. Maxwell's equations. The wave equation. The electromagnetic wave, reflection, refraction, polarization. Guided waves. Transmission lines and wave guides. Vector potential. Radiation. The elemental dipole; the half-wave dipole; vertical dipole; folded dipoles; Yagi antennas. Accelerating charged particles. | ||
| PHYS 350 | Honours Electricity and Magnetism. 2 | 3 |
Honours Electricity and Magnetism. Terms offered: this course is not currently offered. Fundamental laws of electric and magnetic fields in both integral and differential form. | ||
| PHYS 352 | Honours Electromagnetic Waves. 3 | 3 |
Honours Electromagnetic Waves. Terms offered: this course is not currently offered. Vector and scalar potentials; plane waves in homogeneous media; refraction and reflection; guided waves; radiation from simple systems; dipole and quadrupole radiation; introduction to fields of moving charges; synchrotron radiation; Bremsstrahlung. | ||
- 1
If chosen, students may take either MATH 203 Principles of Statistics 1. or MATH 324 Statistics..
- 2
If chosen, students may take either PHYS 340 Majors Electricity and Magnetism. or PHYS 350 Honours Electricity and Magnetism..
- 3
If chosen, students may take either PHYS 342 Majors Electromagnetic Waves. or PHYS 352 Honours Electromagnetic Waves..
Streams
21-23 credits from one of the following four streams:
Weather Analysis and Forecasting Stream (22-23 credits)
16 credits from:
| Course | Title | Credits |
|---|---|---|
| ATOC 309 | Weather Radars and Satellites. | 3 |
Weather Radars and Satellites. Terms offered: this course is not currently offered. Basic notions of radiative transfer and applications of satellite and radar data to mesoscale and synoptic-scale systems are discussed. Emphasis will be put on the contribution of remote sensing to atmospheric and oceanic sciences. | ||
| ATOC 512 | Atmospheric and Oceanic Dynamics. | 3 |
Atmospheric and Oceanic Dynamics. Terms offered: this course is not currently offered. Equations of motion used to study waves, turbulence, and the general circulation of the atmosphere and oceans. Standard approximations to these equations, including the Boussinesq, primitive, quasigeostrohic, and rotating shallow water equations. Emphasis is on effects for which rotation and/or buoyancy play essential roles. Simple classes of flow, e.g., geostrophic, thermal wind, Ekman, and inertial oscillations. | ||
| ATOC 521 | Cloud Physics. | 3 |
Cloud Physics. Terms offered: this course is not currently offered. A detailed overview of the environmental factors and microphysical processes involved in the formation of clouds and precipitation. Topics typically include: cloud observations, atmospheric thermodynamics, environmental stability regimes, convection, the microphysics of the formation of cloud droplets and ice crystals, initiation of precipitation, aerosol–cloud interactions. | ||
| ATOC 540 | Synoptic Meteorology 1. | 3 |
Synoptic Meteorology 1. Terms offered: this course is not currently offered. Analysis of current meteorological data. Description of a geostrophic, hydrostatic atmosphere. Ageostrophic circulations and hydrostatic instabilities. Kinematic and thermodynamic methods of computing vertical motions. Tropical and extratropical condensation rates. Barotropic and equivalent barotropic atmospheres. | ||
| ATOC 541 | Synoptic Meteorology 2. | 3 |
Synoptic Meteorology 2. Terms offered: this course is not currently offered. Analysis of current meteorological data. Quasi-geostrophic theory, including the omega equation, as it relates to extratropical cyclone and anticyclone development. Frontogenesis and frontal circulations in the lower and upper troposphere. Cumulus convection and its relationship to tropical and extratropical circulations. Diagnostic case study work. | ||
| ATOC 546 | Current Weather Discussion. | 1 |
Current Weather Discussion. Terms offered: this course is not currently offered. Half-hour briefing on atmospheric general circulation and current weather around the world using satellite data, radar observations, conventional weather maps, and analyses and forecasts produced by computer techniques. | ||
6-7 credits selected from:
| Course | Title | Credits |
|---|---|---|
| ATOC 404 | Climate Physics. 1 | 3 |
Climate Physics. Terms offered: this course is not currently offered. This course covers the essentials of climate physics through the lens of one-dimensional, vertical atmospheric models. This includes shortwave and longwave radiative transfer, convection, phase changes, clouds, greenhouse gases, and atmospheric escape. This is an adequate level of detail for understanding Earth's climate, paleoclimate, anthropogenic climate change, or pursuing studies of Solar System planets and extrasolar planets. | ||
| ATOC 513 | Waves and Stability. | 3 |
Waves and Stability. Terms offered: this course is not currently offered. Description of the principal wave types and instability mechanisms of geophysical fluid dynamics. Geostrophic adjustment, wave dispersion, the WKBJ approximation. Wave types considered include (internal) inertia-gravity waves, planetary Rossby waves, and the equatorial and coastal wave guides. Instabilities considered include inertial, symmetric, barotropic, baroclinic, and Kelvin-Helmholtz instability. | ||
| ATOC 515 | Turbulence in Atmosphere and Oceans. | 3 |
Turbulence in Atmosphere and Oceans. Terms offered: this course is not currently offered. Application of statistical and semi-empirical methods to the study of geophysical turbulence. Reynolds' equations, dimensional analysis, and similarity. The surface and planetary boundary layers. Oceanic mixed layer. Theories of isotropic two- and three- dimensional turbulence: energy and enstrophy inertial ranges. Beta turbulence. | ||
| ATOC 517 | Boundary Layer Meteorology . | 3 |
Boundary Layer Meteorology . Terms offered: this course is not currently offered. Turbulence and turbulent fluxes, atmospheric stability, Monin-Obukhov similarity theory, surface roughness and surface fluxes, power law and logarithmic wind profiles including their application in wind energy and engineering sectors, convective and stably stratified boundary layers, internal boundary layer development, large-eddy simulations, fundamentals of boundary-layer parameterization in numerical models, and introduction to urban boundary layers. | ||
| ATOC 525 | Atmospheric Radiation. | 3 |
Atmospheric Radiation. Terms offered: this course is not currently offered. Solar and terrestrial radiation. Interactions of molecules, aerosols, clouds, and precipitation with radiation of various wavelengths. Radiative transfer through the clear and cloudy atmosphere. Radiation budgets. Satellite and ground-based measurements. Climate implications. | ||
| ATOC 531 | Dynamics of Current Climates. | 3 |
Dynamics of Current Climates. Terms offered: this course is not currently offered. A detailed overview of the climate and the global energy balance. Topics typically include: energy balance at top of the atmosphere and at the surface, poleward energy flux, the role of clouds, climate and atmospheric/oceanic general circulations, natural variability of the climate system, evolution of climate and climate change. | ||
| ATOC 548 | Mesoscale Meteorology. | 3 |
Mesoscale Meteorology. Terms offered: this course is not currently offered. Theory of meteorologically important mesoscale phenomena including mesoscale instabilities, cumulus convection and its organization (including thunderstorms, squall lines, and other forms of severe weather), internal gravity waves, and topographically forced flows. Application of theory to the physical interpretation of observations and numerical simulations. | ||
| ATOC 557 | Research Methods: Atmospheric and Oceanic Science. | 3 |
Research Methods: Atmospheric and Oceanic Science. Terms offered: this course is not currently offered. The analysis of observational and modeling data, and the advantages and limitations of different data. Different analysis methods including regression, linear stochastic processes autocovariance and spectral analysis, principle component analysis, inverse problems and data assimilation, commonly used in the atmospheric and oceanic sciences. | ||
| ATOC 558 | Numerical Methods and Laboratory. | 3 |
Numerical Methods and Laboratory. Terms offered: this course is not currently offered. Numerical simulation of atmospheric and oceanic processes. Finite difference, finite element, and spectral modelling techniques. Term project including computer modelling of convection or large-scale flows in the atmosphere or ocean. | ||
| ATOC 568 | Ocean Physics. | 3 |
Ocean Physics. Terms offered: this course is not currently offered. Major topics in physics and dynamics of the ocean including seawater properties, density and equation of state, sea ice, air-sea-ice exchanges, mixing and stability in the ocean, wind-driven and thermohaline circulations. Observational techniques and numerical models of the ocean, which include some data analysis and literature review. | ||
| ESYS 300 | Earth Data Analysis. | 3 |
Earth Data Analysis. Terms offered: this course is not currently offered. An applied introduction to programming and statistical image processing tools used in Earth system science, typically covering linear regression, statistical significance, Fourier analysis, empirical orthogonal function analysis. Use of global remote-sensing and in-situ observations. | ||
| ESYS 301 | Earth System Modelling. | 3 |
Earth System Modelling. Terms offered: this course is not currently offered. Introduction o principle concepts of systems modelling related to Earth system science and environmental science, including simple numerical models, conservation laws of mass, energy, and momentum, discretization of governing differential equations, the stability of numerical schemes, and exploration of the ideas of equilibria, feedbacks, and complexity. | ||
| MATH 555 | Fluid Dynamics. 2 | 4 |
Fluid Dynamics. Terms offered: this course is not currently offered. Kinematics. Dynamics of general fluids. Inviscid fluids, Navier-Stokes equations. Exact solutions of Navier-Stokes equations. Low and high Reynolds number flow. | ||
| PHYS 404 | Climate Physics. 1 | 3 |
Climate Physics. Terms offered: this course is not currently offered. This course covers the essentials of climate physics through the lens of one-dimensional, vertical atmospheric models. This includes shortwave and longwave radiative transfer, convection, phase changes, clouds, greenhouse gases, and atmospheric escape. This is an adequate level of detail for understanding Earth's climate, paleoclimate, anthropogenic climate change, or pursing studies of Solar System planets and extrasolar planets. | ||
| PHYS 432 | Physics of Fluids. 2 | 3 |
Physics of Fluids. Terms offered: this course is not currently offered. The physical properties of fluids. The kinematics and dynamics of flow. The effects of viscosity and turbulence. Applications of fluid mechanics in biophysics, geophysics and engineering. | ||
| PHYS 512 | Computational Physics with Applications. | 3 |
Computational Physics with Applications. Terms offered: this course is not currently offered. Computational methods in Physics illustrated with realworld applications. | ||
- 1
If chosen, students may take either PHYS 432 Physics of Fluids. or MATH 555 Fluid Dynamics..
- 2
If chosen, students may take either PHYS 432 Physics of Fluids. or MATH 555 Fluid Dynamics.MATH 555 Fluid Dynamics..
Climate Science Stream (21-22 credits)
15 credits from:
| Course | Title | Credits |
|---|---|---|
| ATOC 404 | Climate Physics. 1 | 3 |
Climate Physics. Terms offered: this course is not currently offered. This course covers the essentials of climate physics through the lens of one-dimensional, vertical atmospheric models. This includes shortwave and longwave radiative transfer, convection, phase changes, clouds, greenhouse gases, and atmospheric escape. This is an adequate level of detail for understanding Earth's climate, paleoclimate, anthropogenic climate change, or pursuing studies of Solar System planets and extrasolar planets. | ||
| ATOC 512 | Atmospheric and Oceanic Dynamics. | 3 |
Atmospheric and Oceanic Dynamics. Terms offered: this course is not currently offered. Equations of motion used to study waves, turbulence, and the general circulation of the atmosphere and oceans. Standard approximations to these equations, including the Boussinesq, primitive, quasigeostrohic, and rotating shallow water equations. Emphasis is on effects for which rotation and/or buoyancy play essential roles. Simple classes of flow, e.g., geostrophic, thermal wind, Ekman, and inertial oscillations. | ||
| ATOC 531 | Dynamics of Current Climates. | 3 |
Dynamics of Current Climates. Terms offered: this course is not currently offered. A detailed overview of the climate and the global energy balance. Topics typically include: energy balance at top of the atmosphere and at the surface, poleward energy flux, the role of clouds, climate and atmospheric/oceanic general circulations, natural variability of the climate system, evolution of climate and climate change. | ||
| MATH 323 | Probability. | 3 |
Probability. Terms offered: Summer 2025 Sample space, events, conditional probability, independence of events, Bayes' Theorem. Basic combinatorial probability, random variables, discrete and continuous univariate and multivariate distributions. Independence of random variables. Inequalities, weak law of large numbers, central limit theorem. | ||
| MATH 324 | Statistics. | 3 |
Statistics. Terms offered: this course is not currently offered. Sampling distributions, point and interval estimation, hypothesis testing, analysis of variance, contingency tables, nonparametric inference, regression, Bayesian inference. | ||
| PHYS 404 | Climate Physics. 1 | 3 |
Climate Physics. Terms offered: this course is not currently offered. This course covers the essentials of climate physics through the lens of one-dimensional, vertical atmospheric models. This includes shortwave and longwave radiative transfer, convection, phase changes, clouds, greenhouse gases, and atmospheric escape. This is an adequate level of detail for understanding Earth's climate, paleoclimate, anthropogenic climate change, or pursing studies of Solar System planets and extrasolar planets. | ||
If chosen, students may take either MATH 203 Principles of Statistics 1. or MATH 324 Statistics..
6-7 credits (3 credits must be an ATOC course) selected from:
| Course | Title | Credits |
|---|---|---|
| ATOC 513 | Waves and Stability. | 3 |
Waves and Stability. Terms offered: this course is not currently offered. Description of the principal wave types and instability mechanisms of geophysical fluid dynamics. Geostrophic adjustment, wave dispersion, the WKBJ approximation. Wave types considered include (internal) inertia-gravity waves, planetary Rossby waves, and the equatorial and coastal wave guides. Instabilities considered include inertial, symmetric, barotropic, baroclinic, and Kelvin-Helmholtz instability. | ||
| ATOC 515 | Turbulence in Atmosphere and Oceans. | 3 |
Turbulence in Atmosphere and Oceans. Terms offered: this course is not currently offered. Application of statistical and semi-empirical methods to the study of geophysical turbulence. Reynolds' equations, dimensional analysis, and similarity. The surface and planetary boundary layers. Oceanic mixed layer. Theories of isotropic two- and three- dimensional turbulence: energy and enstrophy inertial ranges. Beta turbulence. | ||
| ATOC 521 | Cloud Physics. | 3 |
Cloud Physics. Terms offered: this course is not currently offered. A detailed overview of the environmental factors and microphysical processes involved in the formation of clouds and precipitation. Topics typically include: cloud observations, atmospheric thermodynamics, environmental stability regimes, convection, the microphysics of the formation of cloud droplets and ice crystals, initiation of precipitation, aerosol–cloud interactions. | ||
| ATOC 525 | Atmospheric Radiation. | 3 |
Atmospheric Radiation. Terms offered: this course is not currently offered. Solar and terrestrial radiation. Interactions of molecules, aerosols, clouds, and precipitation with radiation of various wavelengths. Radiative transfer through the clear and cloudy atmosphere. Radiation budgets. Satellite and ground-based measurements. Climate implications. | ||
| ATOC 540 | Synoptic Meteorology 1. | 3 |
Synoptic Meteorology 1. Terms offered: this course is not currently offered. Analysis of current meteorological data. Description of a geostrophic, hydrostatic atmosphere. Ageostrophic circulations and hydrostatic instabilities. Kinematic and thermodynamic methods of computing vertical motions. Tropical and extratropical condensation rates. Barotropic and equivalent barotropic atmospheres. | ||
| ATOC 557 | Research Methods: Atmospheric and Oceanic Science. | 3 |
Research Methods: Atmospheric and Oceanic Science. Terms offered: this course is not currently offered. The analysis of observational and modeling data, and the advantages and limitations of different data. Different analysis methods including regression, linear stochastic processes autocovariance and spectral analysis, principle component analysis, inverse problems and data assimilation, commonly used in the atmospheric and oceanic sciences. | ||
| ATOC 558 | Numerical Methods and Laboratory. | 3 |
Numerical Methods and Laboratory. Terms offered: this course is not currently offered. Numerical simulation of atmospheric and oceanic processes. Finite difference, finite element, and spectral modelling techniques. Term project including computer modelling of convection or large-scale flows in the atmosphere or ocean. | ||
| ATOC 568 | Ocean Physics. | 3 |
Ocean Physics. Terms offered: this course is not currently offered. Major topics in physics and dynamics of the ocean including seawater properties, density and equation of state, sea ice, air-sea-ice exchanges, mixing and stability in the ocean, wind-driven and thermohaline circulations. Observational techniques and numerical models of the ocean, which include some data analysis and literature review. | ||
| EPSC 513 | Climate and the Carbon Cycle. | 3 |
Climate and the Carbon Cycle. Terms offered: this course is not currently offered. What does the rapid increase in CO2, currently driven by human activities, mean for future climate? Where will the carbon released by humans go, and how long will it take? An overview of the mechanisms governing global climate, the carbon cycle, and geological evidence for past changes in climate and the carbon cycle. Through assignments, students build their own simple Earth System models in order to explore basic principles of the coupling between climate and the carbon cycle. Output from General Circulation Models is analysed and recent peer-reviewed scientific literature is discussed. | ||
| ESYS 300 | Earth Data Analysis. | 3 |
Earth Data Analysis. Terms offered: this course is not currently offered. An applied introduction to programming and statistical image processing tools used in Earth system science, typically covering linear regression, statistical significance, Fourier analysis, empirical orthogonal function analysis. Use of global remote-sensing and in-situ observations. | ||
| ESYS 301 | Earth System Modelling. | 3 |
Earth System Modelling. Terms offered: this course is not currently offered. Introduction o principle concepts of systems modelling related to Earth system science and environmental science, including simple numerical models, conservation laws of mass, energy, and momentum, discretization of governing differential equations, the stability of numerical schemes, and exploration of the ideas of equilibria, feedbacks, and complexity. | ||
| MATH 423 | Applied Regression. | 3 |
Applied Regression. Terms offered: this course is not currently offered. Multiple regression estimators and their properties. Hypothesis tests and confidence intervals. Analysis of variance. Prediction and prediction intervals. Model diagnostics. Model selection. Introduction to weighted least squares. Basic contingency table analysis. Introduction to logistic and Poisson regression. Applications to experimental and observational data. | ||
| MATH 555 | Fluid Dynamics. 1 | 4 |
Fluid Dynamics. Terms offered: this course is not currently offered. Kinematics. Dynamics of general fluids. Inviscid fluids, Navier-Stokes equations. Exact solutions of Navier-Stokes equations. Low and high Reynolds number flow. | ||
| PHYS 432 | Physics of Fluids. 1 | 3 |
Physics of Fluids. Terms offered: this course is not currently offered. The physical properties of fluids. The kinematics and dynamics of flow. The effects of viscosity and turbulence. Applications of fluid mechanics in biophysics, geophysics and engineering. | ||
| PHYS 512 | Computational Physics with Applications. | 3 |
Computational Physics with Applications. Terms offered: this course is not currently offered. Computational methods in Physics illustrated with realworld applications. | ||
Atmospheric Chemistry and Physics Stream (21 credits)
15 credits from:
| Course | Title | Credits |
|---|---|---|
| ATOC 309 | Weather Radars and Satellites. | 3 |
Weather Radars and Satellites. Terms offered: this course is not currently offered. Basic notions of radiative transfer and applications of satellite and radar data to mesoscale and synoptic-scale systems are discussed. Emphasis will be put on the contribution of remote sensing to atmospheric and oceanic sciences. | ||
| ATOC 519 | Advances in Chemistry of Atmosphere. | 3 |
Advances in Chemistry of Atmosphere. Terms offered: this course is not currently offered. Exploration of the field of atmospheric chemistry that is identified as the significant driver of climate change and the cause of millions of premature death every year. Discussion of cutting-edge novel technologies for observing and quantifying pollutants (from ground to satellite) using artificial intelligence, the fate of emerging contaminants (e.g., nano/microplastics, trace metals, persistent organic), and modelling of atmospheric and interfacial processes. Examination of topics like atmospheric gaseous and multiphase components like bioaerosols. Study of photochemical, photophysical, and aerosol nucleation processes that affect air quality, climate change, and ecosystem health. | ||
| ATOC 521 | Cloud Physics. | 3 |
Cloud Physics. Terms offered: this course is not currently offered. A detailed overview of the environmental factors and microphysical processes involved in the formation of clouds and precipitation. Topics typically include: cloud observations, atmospheric thermodynamics, environmental stability regimes, convection, the microphysics of the formation of cloud droplets and ice crystals, initiation of precipitation, aerosol–cloud interactions. | ||
| CHEM 213 | Introductory Physical Chemistry 1: Thermodynamics. | 3 |
Introductory Physical Chemistry 1: Thermodynamics. Terms offered: this course is not currently offered. Thermodynamics. Topics include gas laws, kinetic theory of collisions, heat capacity, enthalpy, thermochemistry, bond energies, the entropy and free energy functions, absolute entropies, Maxwell relations and chemical and thermodynamic equilibrium states, phase rule and phase diagrams, ideal solutions, colligative properties, solubility, electrochemistry, Debye-Hückel Theory. | ||
| CHEM 273 | Introductory Physical Chemistry 2: Kinetics and Methods. | 3 |
Introductory Physical Chemistry 2: Kinetics and Methods. Terms offered: this course is not currently offered. Kinetics: Transition State Theory, complex reactions, free-radical reactions, chain reactions, catalysis, reactions at surfaces, ionic effects of reactions in solution, photochemistry. Methods: physical chemistry laboratory, differential equations and linear algebra applied to physical chemistry, computation methods for data analysis and modeling | ||
6 credits selected from:
| Course | Title | Credits |
|---|---|---|
| ATOC 404 | Climate Physics. 1 | 3 |
Climate Physics. Terms offered: this course is not currently offered. This course covers the essentials of climate physics through the lens of one-dimensional, vertical atmospheric models. This includes shortwave and longwave radiative transfer, convection, phase changes, clouds, greenhouse gases, and atmospheric escape. This is an adequate level of detail for understanding Earth's climate, paleoclimate, anthropogenic climate change, or pursuing studies of Solar System planets and extrasolar planets. | ||
| ATOC 512 | Atmospheric and Oceanic Dynamics. | 3 |
Atmospheric and Oceanic Dynamics. Terms offered: this course is not currently offered. Equations of motion used to study waves, turbulence, and the general circulation of the atmosphere and oceans. Standard approximations to these equations, including the Boussinesq, primitive, quasigeostrohic, and rotating shallow water equations. Emphasis is on effects for which rotation and/or buoyancy play essential roles. Simple classes of flow, e.g., geostrophic, thermal wind, Ekman, and inertial oscillations. | ||
| ATOC 513 | Waves and Stability. | 3 |
Waves and Stability. Terms offered: this course is not currently offered. Description of the principal wave types and instability mechanisms of geophysical fluid dynamics. Geostrophic adjustment, wave dispersion, the WKBJ approximation. Wave types considered include (internal) inertia-gravity waves, planetary Rossby waves, and the equatorial and coastal wave guides. Instabilities considered include inertial, symmetric, barotropic, baroclinic, and Kelvin-Helmholtz instability. | ||
| ATOC 517 | Boundary Layer Meteorology . | 3 |
Boundary Layer Meteorology . Terms offered: this course is not currently offered. Turbulence and turbulent fluxes, atmospheric stability, Monin-Obukhov similarity theory, surface roughness and surface fluxes, power law and logarithmic wind profiles including their application in wind energy and engineering sectors, convective and stably stratified boundary layers, internal boundary layer development, large-eddy simulations, fundamentals of boundary-layer parameterization in numerical models, and introduction to urban boundary layers. | ||
| ATOC 519 | Advances in Chemistry of Atmosphere. | 3 |
Advances in Chemistry of Atmosphere. Terms offered: this course is not currently offered. Exploration of the field of atmospheric chemistry that is identified as the significant driver of climate change and the cause of millions of premature death every year. Discussion of cutting-edge novel technologies for observing and quantifying pollutants (from ground to satellite) using artificial intelligence, the fate of emerging contaminants (e.g., nano/microplastics, trace metals, persistent organic), and modelling of atmospheric and interfacial processes. Examination of topics like atmospheric gaseous and multiphase components like bioaerosols. Study of photochemical, photophysical, and aerosol nucleation processes that affect air quality, climate change, and ecosystem health. | ||
| ATOC 525 | Atmospheric Radiation. | 3 |
Atmospheric Radiation. Terms offered: this course is not currently offered. Solar and terrestrial radiation. Interactions of molecules, aerosols, clouds, and precipitation with radiation of various wavelengths. Radiative transfer through the clear and cloudy atmosphere. Radiation budgets. Satellite and ground-based measurements. Climate implications. | ||
| ATOC 540 | Synoptic Meteorology 1. | 3 |
Synoptic Meteorology 1. Terms offered: this course is not currently offered. Analysis of current meteorological data. Description of a geostrophic, hydrostatic atmosphere. Ageostrophic circulations and hydrostatic instabilities. Kinematic and thermodynamic methods of computing vertical motions. Tropical and extratropical condensation rates. Barotropic and equivalent barotropic atmospheres. | ||
| ATOC 557 | Research Methods: Atmospheric and Oceanic Science. | 3 |
Research Methods: Atmospheric and Oceanic Science. Terms offered: this course is not currently offered. The analysis of observational and modeling data, and the advantages and limitations of different data. Different analysis methods including regression, linear stochastic processes autocovariance and spectral analysis, principle component analysis, inverse problems and data assimilation, commonly used in the atmospheric and oceanic sciences. | ||
| ATOC 558 | Numerical Methods and Laboratory. | 3 |
Numerical Methods and Laboratory. Terms offered: this course is not currently offered. Numerical simulation of atmospheric and oceanic processes. Finite difference, finite element, and spectral modelling techniques. Term project including computer modelling of convection or large-scale flows in the atmosphere or ocean. | ||
| CHEM 367 | Instrumental Analysis 1. | 3 |
Instrumental Analysis 1. Terms offered: this course is not currently offered. An introduction to modern instrumental analysis emphasizing chromatography, atomic spectroscopy and computational data analysis. Analytical methods to be examined in detail include gas-liquid and high performance liquid chromatography, LC mass spectrometry, and common methods of atomic determinations using flames/furnaces/plasma sources. | ||
| CHEM 575 | Chemical Kinetics. | 3 |
Chemical Kinetics. Terms offered: this course is not currently offered. Kinetic laws, measurement of reaction rates, transition state and collision theory, experimental techniques in reaction kinetics, reaction mechanisms, RRKM theory, Marcus theory of electron transfer, photochemistry and catalysis. Recent developments and their application to chemical and biological problems. Elementary reactions in gas, solution and solid phases and on surfaces. | ||
| EPSC 513 | Climate and the Carbon Cycle. | 3 |
Climate and the Carbon Cycle. Terms offered: this course is not currently offered. What does the rapid increase in CO2, currently driven by human activities, mean for future climate? Where will the carbon released by humans go, and how long will it take? An overview of the mechanisms governing global climate, the carbon cycle, and geological evidence for past changes in climate and the carbon cycle. Through assignments, students build their own simple Earth System models in order to explore basic principles of the coupling between climate and the carbon cycle. Output from General Circulation Models is analysed and recent peer-reviewed scientific literature is discussed. | ||
| MATH 423 | Applied Regression. | 3 |
Applied Regression. Terms offered: this course is not currently offered. Multiple regression estimators and their properties. Hypothesis tests and confidence intervals. Analysis of variance. Prediction and prediction intervals. Model diagnostics. Model selection. Introduction to weighted least squares. Basic contingency table analysis. Introduction to logistic and Poisson regression. Applications to experimental and observational data. | ||
| PHYS 404 | Climate Physics. 1 | 3 |
Climate Physics. Terms offered: this course is not currently offered. This course covers the essentials of climate physics through the lens of one-dimensional, vertical atmospheric models. This includes shortwave and longwave radiative transfer, convection, phase changes, clouds, greenhouse gases, and atmospheric escape. This is an adequate level of detail for understanding Earth's climate, paleoclimate, anthropogenic climate change, or pursing studies of Solar System planets and extrasolar planets. | ||
| PHYS 512 | Computational Physics with Applications. | 3 |
Computational Physics with Applications. Terms offered: this course is not currently offered. Computational methods in Physics illustrated with realworld applications. | ||
General Stream (21-22 credits)
(at least 15 credits must be ATOC courses) selected from:
| Course | Title | Credits |
|---|---|---|
| ATOC 309 | Weather Radars and Satellites. | 3 |
Weather Radars and Satellites. Terms offered: this course is not currently offered. Basic notions of radiative transfer and applications of satellite and radar data to mesoscale and synoptic-scale systems are discussed. Emphasis will be put on the contribution of remote sensing to atmospheric and oceanic sciences. | ||
| ATOC 404 | Climate Physics. 1 | 3 |
Climate Physics. Terms offered: this course is not currently offered. This course covers the essentials of climate physics through the lens of one-dimensional, vertical atmospheric models. This includes shortwave and longwave radiative transfer, convection, phase changes, clouds, greenhouse gases, and atmospheric escape. This is an adequate level of detail for understanding Earth's climate, paleoclimate, anthropogenic climate change, or pursuing studies of Solar System planets and extrasolar planets. | ||
| ATOC 512 | Atmospheric and Oceanic Dynamics. | 3 |
Atmospheric and Oceanic Dynamics. Terms offered: this course is not currently offered. Equations of motion used to study waves, turbulence, and the general circulation of the atmosphere and oceans. Standard approximations to these equations, including the Boussinesq, primitive, quasigeostrohic, and rotating shallow water equations. Emphasis is on effects for which rotation and/or buoyancy play essential roles. Simple classes of flow, e.g., geostrophic, thermal wind, Ekman, and inertial oscillations. | ||
| ATOC 513 | Waves and Stability. | 3 |
Waves and Stability. Terms offered: this course is not currently offered. Description of the principal wave types and instability mechanisms of geophysical fluid dynamics. Geostrophic adjustment, wave dispersion, the WKBJ approximation. Wave types considered include (internal) inertia-gravity waves, planetary Rossby waves, and the equatorial and coastal wave guides. Instabilities considered include inertial, symmetric, barotropic, baroclinic, and Kelvin-Helmholtz instability. | ||
| ATOC 517 | Boundary Layer Meteorology . | 3 |
Boundary Layer Meteorology . Terms offered: this course is not currently offered. Turbulence and turbulent fluxes, atmospheric stability, Monin-Obukhov similarity theory, surface roughness and surface fluxes, power law and logarithmic wind profiles including their application in wind energy and engineering sectors, convective and stably stratified boundary layers, internal boundary layer development, large-eddy simulations, fundamentals of boundary-layer parameterization in numerical models, and introduction to urban boundary layers. | ||
| ATOC 519 | Advances in Chemistry of Atmosphere. | 3 |
Advances in Chemistry of Atmosphere. Terms offered: this course is not currently offered. Exploration of the field of atmospheric chemistry that is identified as the significant driver of climate change and the cause of millions of premature death every year. Discussion of cutting-edge novel technologies for observing and quantifying pollutants (from ground to satellite) using artificial intelligence, the fate of emerging contaminants (e.g., nano/microplastics, trace metals, persistent organic), and modelling of atmospheric and interfacial processes. Examination of topics like atmospheric gaseous and multiphase components like bioaerosols. Study of photochemical, photophysical, and aerosol nucleation processes that affect air quality, climate change, and ecosystem health. | ||
| ATOC 521 | Cloud Physics. | 3 |
Cloud Physics. Terms offered: this course is not currently offered. A detailed overview of the environmental factors and microphysical processes involved in the formation of clouds and precipitation. Topics typically include: cloud observations, atmospheric thermodynamics, environmental stability regimes, convection, the microphysics of the formation of cloud droplets and ice crystals, initiation of precipitation, aerosol–cloud interactions. | ||
| ATOC 525 | Atmospheric Radiation. | 3 |
Atmospheric Radiation. Terms offered: this course is not currently offered. Solar and terrestrial radiation. Interactions of molecules, aerosols, clouds, and precipitation with radiation of various wavelengths. Radiative transfer through the clear and cloudy atmosphere. Radiation budgets. Satellite and ground-based measurements. Climate implications. | ||
| ATOC 531 | Dynamics of Current Climates. | 3 |
Dynamics of Current Climates. Terms offered: this course is not currently offered. A detailed overview of the climate and the global energy balance. Topics typically include: energy balance at top of the atmosphere and at the surface, poleward energy flux, the role of clouds, climate and atmospheric/oceanic general circulations, natural variability of the climate system, evolution of climate and climate change. | ||
| ATOC 540 | Synoptic Meteorology 1. | 3 |
Synoptic Meteorology 1. Terms offered: this course is not currently offered. Analysis of current meteorological data. Description of a geostrophic, hydrostatic atmosphere. Ageostrophic circulations and hydrostatic instabilities. Kinematic and thermodynamic methods of computing vertical motions. Tropical and extratropical condensation rates. Barotropic and equivalent barotropic atmospheres. | ||
| ATOC 541 | Synoptic Meteorology 2. | 3 |
Synoptic Meteorology 2. Terms offered: this course is not currently offered. Analysis of current meteorological data. Quasi-geostrophic theory, including the omega equation, as it relates to extratropical cyclone and anticyclone development. Frontogenesis and frontal circulations in the lower and upper troposphere. Cumulus convection and its relationship to tropical and extratropical circulations. Diagnostic case study work. | ||
| ATOC 546 | Current Weather Discussion. | 1 |
Current Weather Discussion. Terms offered: this course is not currently offered. Half-hour briefing on atmospheric general circulation and current weather around the world using satellite data, radar observations, conventional weather maps, and analyses and forecasts produced by computer techniques. | ||
| ATOC 548 | Mesoscale Meteorology. | 3 |
Mesoscale Meteorology. Terms offered: this course is not currently offered. Theory of meteorologically important mesoscale phenomena including mesoscale instabilities, cumulus convection and its organization (including thunderstorms, squall lines, and other forms of severe weather), internal gravity waves, and topographically forced flows. Application of theory to the physical interpretation of observations and numerical simulations. | ||
| ATOC 557 | Research Methods: Atmospheric and Oceanic Science. | 3 |
Research Methods: Atmospheric and Oceanic Science. Terms offered: this course is not currently offered. The analysis of observational and modeling data, and the advantages and limitations of different data. Different analysis methods including regression, linear stochastic processes autocovariance and spectral analysis, principle component analysis, inverse problems and data assimilation, commonly used in the atmospheric and oceanic sciences. | ||
| ATOC 558 | Numerical Methods and Laboratory. | 3 |
Numerical Methods and Laboratory. Terms offered: this course is not currently offered. Numerical simulation of atmospheric and oceanic processes. Finite difference, finite element, and spectral modelling techniques. Term project including computer modelling of convection or large-scale flows in the atmosphere or ocean. | ||
| ATOC 568 | Ocean Physics. | 3 |
Ocean Physics. Terms offered: this course is not currently offered. Major topics in physics and dynamics of the ocean including seawater properties, density and equation of state, sea ice, air-sea-ice exchanges, mixing and stability in the ocean, wind-driven and thermohaline circulations. Observational techniques and numerical models of the ocean, which include some data analysis and literature review. | ||
| CHEM 367 | Instrumental Analysis 1. | 3 |
Instrumental Analysis 1. Terms offered: this course is not currently offered. An introduction to modern instrumental analysis emphasizing chromatography, atomic spectroscopy and computational data analysis. Analytical methods to be examined in detail include gas-liquid and high performance liquid chromatography, LC mass spectrometry, and common methods of atomic determinations using flames/furnaces/plasma sources. | ||
| CHEM 575 | Chemical Kinetics. | 3 |
Chemical Kinetics. Terms offered: this course is not currently offered. Kinetic laws, measurement of reaction rates, transition state and collision theory, experimental techniques in reaction kinetics, reaction mechanisms, RRKM theory, Marcus theory of electron transfer, photochemistry and catalysis. Recent developments and their application to chemical and biological problems. Elementary reactions in gas, solution and solid phases and on surfaces. | ||
| EPSC 513 | Climate and the Carbon Cycle. | 3 |
Climate and the Carbon Cycle. Terms offered: this course is not currently offered. What does the rapid increase in CO2, currently driven by human activities, mean for future climate? Where will the carbon released by humans go, and how long will it take? An overview of the mechanisms governing global climate, the carbon cycle, and geological evidence for past changes in climate and the carbon cycle. Through assignments, students build their own simple Earth System models in order to explore basic principles of the coupling between climate and the carbon cycle. Output from General Circulation Models is analysed and recent peer-reviewed scientific literature is discussed. | ||
| ESYS 300 | Earth Data Analysis. | 3 |
Earth Data Analysis. Terms offered: this course is not currently offered. An applied introduction to programming and statistical image processing tools used in Earth system science, typically covering linear regression, statistical significance, Fourier analysis, empirical orthogonal function analysis. Use of global remote-sensing and in-situ observations. | ||
| ESYS 301 | Earth System Modelling. | 3 |
Earth System Modelling. Terms offered: this course is not currently offered. Introduction o principle concepts of systems modelling related to Earth system science and environmental science, including simple numerical models, conservation laws of mass, energy, and momentum, discretization of governing differential equations, the stability of numerical schemes, and exploration of the ideas of equilibria, feedbacks, and complexity. | ||
| MATH 423 | Applied Regression. | 3 |
Applied Regression. Terms offered: this course is not currently offered. Multiple regression estimators and their properties. Hypothesis tests and confidence intervals. Analysis of variance. Prediction and prediction intervals. Model diagnostics. Model selection. Introduction to weighted least squares. Basic contingency table analysis. Introduction to logistic and Poisson regression. Applications to experimental and observational data. | ||
| MATH 555 | Fluid Dynamics. 2 | 4 |
Fluid Dynamics. Terms offered: this course is not currently offered. Kinematics. Dynamics of general fluids. Inviscid fluids, Navier-Stokes equations. Exact solutions of Navier-Stokes equations. Low and high Reynolds number flow. | ||
| PHYS 404 | Climate Physics. 1 | 3 |
Climate Physics. Terms offered: this course is not currently offered. This course covers the essentials of climate physics through the lens of one-dimensional, vertical atmospheric models. This includes shortwave and longwave radiative transfer, convection, phase changes, clouds, greenhouse gases, and atmospheric escape. This is an adequate level of detail for understanding Earth's climate, paleoclimate, anthropogenic climate change, or pursing studies of Solar System planets and extrasolar planets. | ||
| PHYS 432 | Physics of Fluids. 2 | 3 |
Physics of Fluids. Terms offered: this course is not currently offered. The physical properties of fluids. The kinematics and dynamics of flow. The effects of viscosity and turbulence. Applications of fluid mechanics in biophysics, geophysics and engineering. | ||
| PHYS 512 | Computational Physics with Applications. | 3 |
Computational Physics with Applications. Terms offered: this course is not currently offered. Computational methods in Physics illustrated with realworld applications. | ||