Mathematics for Quantum Chemistry

6 EC

Semester 1, periode 1

5112WICH6Y

Eigenaar Bachelor Scheikunde
Coördinator prof. dr. P. Gori Giorgi
Onderdeel van Bachelor Scheikunde, jaar 3

Studiewijzer 2015/2016

Globale inhoud

The main purpose of this course is to substantially increase the mathematics level of the chemistry students. Particular attention is devoted to develop formal skills, focusing on mathematical tools that are absolutely necessary for chemical physics and theoretical/computational chemistry, but also very useful for all other chemistry disciplines.

Leerdoelen

  • Taylor series and polynomials. How to approximate a complicated function around a certain point by means of simple polynomials? As you will learn, this makes it possible to greatly simplify equations and provides good approximations in many important limiting situations. The concept of series expansion will be also generalized to matrices in the Linear Algebra part of the course.
  • Linear Algebra: matrices, matrix operations, linear vector spaces, eigenvalues and eigenvectors, diagonalization of matrices. In quantum mechanics, the operators can be 3 represented in matrix form and wave functions as vectors. Being able to perform matrix operations and understanding the properties of matrices and vector spaces is therefore essential. General linear vector spaces that appear in computational and theoretical chemistry will be also explained.
  • Fourier series and Fourier transforms. You will learn how a complicated periodic function can be expressed as a sum of simple sinusoidal functions. Also, you will learn how to transform functions into momentum space and understand the advantages of using this powerful tool.
  • Partial derivatives. Multidimensional integrals. One-variable calculus is good for learning the basic concepts, but in the real world many properties are expressed as functions of several variables. We therefore need to generalize concepts such as derivatives or integrals in order to do calculus with such functions.
  • Vector analysis. Once you understand the concepts of partial derivative and multidimensional integral, you will be able to learn calculus theorems for higherdimensional spaces.
  • Ordinary and partial differential equations. Partial differential equations are everywhere in Chemistry. For example, the Schrödinger equation, central in quantum chemistry, is a partial differential equation. You will learn the basic concepts behind the strategies to solve these equations

Onderwijsvormen

    Hoorcolleges en werkcolleges.

    Verdeling leeractiviteiten

    Activiteit

    Aantal uur

    Hoorcollege

    49

    Tentamen

    5.5

    Werkcollege

    17.5

    Zelfstudie

    96

    Toetsing

    Onderdeel en weging Details Opmerkingen

    Eindcijfer

    100%

    Theorie

    		Herkansbaar

    75%

    Tentamen

    		Moet ≥ 5 zijnIf the result of the written exam is equal to or less than 5 then this is the final result.

    25%

    Assignments

    		If the result of the written exam is more than 5, the final result is based on both the written exam and the assignments. The weighting factor of the written exam is 3/4 and of the assignments is 1/4.

    Assignments

    Five assignments during the course will be given, in the first 5 weeks of the course. Each assignment will be given on a Friday (via blackboard). The solution has to be handed to the instructor on the following Thursday, at the beginning of the lecture. The rules are: - In making assignments, collaboration of 2 people is allowed (not 3 or more). Each person 5 should write and understand his/her own results. Indicate with whom you collaborated if you did. In contrast to common assumptions, deviations from this rule are noticed fairly quickly. - Assignments cannot be handed in after the deadline. - The final mark for the assignments is the average of the best four.

    Assessment

    We will have a final written exam to assess if you have met the objectives of the course. The structure of this exam and the material that you can use in it will be explained during the course. The final mark of the course is based on the results of the assignments and of the written exam in the following way: - If the result of the written exam is equal to or less than 5 then this is the final result. - If the result of the written exam is more than 5, the final result is based on both the written exam and the assignments. The weighting factor of the written exam is 3/4 and of the assignments is 1/4.

    Opdrachten

    Assignments

    • 5 written assignments

    Onderstaande opdrachten komen aan bod in deze cursus:

    •    Naam opdracht 1 : beschrijving 2
    •    Naam opdracht 2 : beschrijving 1
    •    ....

    Fraude en plagiaat

    Dit vak hanteert de algemene ‘Fraude- en plagiaatregeling’ van de UvA. Onder plagiaat of fraude wordt verstaan het overschrijven van het werk van een medestudent dan wel het kopiëren van wetenschappelijke bronnen (uit bijvoorbeeld boeken en tijdschriften en van het Internet) zonder daarbij de bron te vermelden. Uiteraard is plagiaat verboden. Hier wordt nauwkeurig op gecontroleerd en streng tegen opgetreden. Bij verdenking van plagiaat wordt de examencommissie van de opleiding ingeschakeld. Wanneer de examencommissie overtuigd is dat er plagiaat gepleegd is dan kan dit maximaal leiden tot een uitsluiting van al het onderwijs van de opleiding voor een heel kalenderjaar. Zie voor meer informatie over het fraude- en plagiaatreglement van de Universiteit van Amsterdam.www.uva.nl/plagiaat

    Weekplanning

    Weeknummer Onderwerpen Studiestof
    1
    2
    3
    4
    5
    6
    7
    8

    Rooster

    Aanvullende informatie

    Voorkennis

    The basis of the course will be the Mathematics you learned in the courses Natuurkunde & Wiskunde voor Chemici I en II. This means that you should remember how to calculate derivatives, basic integrals, operations with vectors, and the basic concepts about second order linear differential equations with constant coefficients. We recommend you to refresh these topics with the calculus book “Calculus: A complete course”, by R. A. Adams and C. Essex that you have used in Wiskunde voor Chemici I en II.

    Contactinformatie

    Coördinator

    • prof. dr. P. Gori Giorgi