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MA 395D

Mathematics of Planet Earth I

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This course concerns mathematical techniques applicable in modelling the Earth’s climate. We will discuss the major Earth’s energy balance models, oceans and atmosphere and climate. These models will be analysed using techniques from differential equations and dynamical systems (bifurcation theory), statistics (regression analysis) and data science, such as Principal Component Analysis (PCA). Prerequisites: (MA200 or MA201) and MA205 and (MA222 or MA287) and ST260 or [instructor permission for students in non-math major programs.

This course concerns mathematical techniques applicable in modelling the Earth’s climate. We will discuss the major Earth’s energy balance models, oceans and atmosphere and climate. These models will be analysed using techniques from differential equations and dynamical systems (bifurcation theory), statistics (regression analysis) and data science, such as Principal Component Analysis (PCA). Prerequisites: (MA200 or MA201) and MA205 and (MA222 or MA287) and ST260 or [instructor permission for students in non-math major programs.

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This course concerns mathematical techniques applicable in modelling the Earth’s climate. We will discuss the major Earth’s energy balance models, oceans and atmosphere and climate. These models will be analysed using techniques from differential equations and dynamical systems (bifurcation theory), statistics (regression analysis) and data science, such as Principal Component Analysis (PCA). Prerequisites: (MA200 or MA201) and MA205 and (MA222 or MA287) and ST260 or [instructor permission for students in non-math major programs.

MA 395D Prerequisites

No Prerequisite Information Available

MA 395D Leads To

MA 495M

MA 395D Restrictions

Must be enrolled in one of the following Levels:

Undergraduate (UG)

MA 395D

Mathematics of Planet Earth I

0%Liked

Easy

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Useful

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This course concerns mathematical techniques applicable in modelling the Earth’s climate. We will discuss the major Earth’s energy balance models, oceans and atmosphere and climate. These models will be analysed using techniques from differential equations and dynamical systems (bifurcation theory), statistics (regression analysis) and data science, such as Principal Component Analysis (PCA). Prerequisites: (MA200 or MA201) and MA205 and (MA222 or MA287) and ST260 or [instructor permission for students in non-math major programs.

This course concerns mathematical techniques applicable in modelling the Earth’s climate. We will discuss the major Earth’s energy balance models, oceans and atmosphere and climate. These models will be analysed using techniques from differential equations and dynamical systems (bifurcation theory), statistics (regression analysis) and data science, such as Principal Component Analysis (PCA). Prerequisites: (MA200 or MA201) and MA205 and (MA222 or MA287) and ST260 or [instructor permission for students in non-math major programs.

0%Liked

Easy

0%

Useful

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0 ratings

This course concerns mathematical techniques applicable in modelling the Earth’s climate. We will discuss the major Earth’s energy balance models, oceans and atmosphere and climate. These models will be analysed using techniques from differential equations and dynamical systems (bifurcation theory), statistics (regression analysis) and data science, such as Principal Component Analysis (PCA). Prerequisites: (MA200 or MA201) and MA205 and (MA222 or MA287) and ST260 or [instructor permission for students in non-math major programs.

Course Schedule