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Module guide

Module MA1500-KP08, MA1500

Linear Algebra and Discrete Structures 2 (LADS2)

Duration:


1 Semester
Turnus of offer:


each summer semester
Credit points:


8
Course of studies, specific field and terms:
  • Bachelor MES 2020 (compulsory), mathematics, 2nd semester
  • Bachelor Computer Science 2019 (compulsory: aptitude test), mathematics, 2nd semester
  • Bachelor Robotics and Autonomous Systems 2020 (compulsory), mathematics, 2nd semester
  • Bachelor Medical Informatics 2019 (compulsory), mathematics, 2nd semester
  • Minor in Teaching Mathematics, Bachelor of Arts 2017 (compulsory), mathematics, 4th semester
  • Bachelor Computer Science 2016 (compulsory: aptitude test), mathematics, 2nd semester
  • Bachelor CLS 2016 (compulsory), mathematics, 2nd semester
  • Bachelor Robotics and Autonomous Systems 2016 (compulsory), mathematics, 2nd semester
  • Bachelor IT-Security 2016 (compulsory), mathematics, 2nd semester
  • Bachelor Biophysics 2016 (compulsory), mathematics, 2nd semester
  • Bachelor Medical Informatics 2014 (compulsory), mathematics, 2nd semester
  • Bachelor MES 2014 (compulsory), mathematics, 2nd semester
  • Bachelor Computer Science 2014 (compulsory: aptitude test), mathematics, 2nd semester
  • Bachelor Medical Informatics 2011 (compulsory), mathematics, 2nd semester
  • Bachelor CLS 2010 (compulsory), mathematics, 2nd semester
  • Bachelor MES 2011 (compulsory), mathematics, 2nd semester
  • Bachelor Computer Science 2012 (compulsory: aptitude test), mathematics, 2nd semester
  • Bachelor CLS 2023 (compulsory), mathematics, 2nd semester
  • Minor in Teaching Mathematics, Bachelor of Arts 2023 (compulsory), mathematics, 4th semester
Classes and lectures:
  • Linear Algebra and Discrete Structures 2 (exercise, 2 SWS)
  • Linear Algebra and Discrete Structures 2 (lecture, 4 SWS)
Workload:
  • 90 Hours in-classroom work
  • 125 Hours private studies and exercises
  • 25 Hours exam preparation
Contents of teaching:
  • Systems of linear equations, matrices
  • Determinants
  • Linear mappings
  • Orthogonality
  • Eigenvalues
  • According to the rules of GSP of the UzL
Qualification-goals/Competencies:
  • The students understand advanced concepts of linear algebra.
  • They understand advanced thought processes and methods of proof.
  • They can apply advanced concepts and methods of proof to algebraic problems.
  • They can explain advanced relationships in linear algebra.
  • Interdisciplinary qualifications:
  • Students can transfer advanced theoretical concepts to similar applications.
  • They have an advanced competency in modeling.
  • They can solve complex problems within a group.
  • They can present the solution to complex problems to a group.
Grading through:
  • written exam
Is requisite for:
Requires:
Responsible for this module:
Teachers:
Literature:
  • G. Fischer: Lineare Algebra: Eine Einführung für Studienanfänger - Vieweg+Teubner
  • G. Strang: Lineare Algebra - Springer
  • K. Jänich: Lineare Algebra - Springer
  • D. Lau: Algebra und diskrete Mathematik I + II - Springer
  • G. Strang: Introduction to Linear Algebra - Cambridge Press
  • K. Rosen: Discrete Mathematics and Its Applications - McGraw-Hill
Language:
  • offered only in German
Notes:

Prerequisites for attending the module:
- None

Prerequisites for the exam:
- Successful completion of homework assignments during the semester.
- Successful completion of e-tests during the semester.
- Presentation of homework assignment

Modul exam:
-MA1500-L1: Linear Algebra and Discrete Structures 2, written exam, 90 min, 100 % of Module grade

Letzte Änderung:
19.11.2021