Emneside for ING2307 Matematiske metoder i praksis
Hva lærer du
Emnet skal utvikle videre matematisk modning, og gi god forståelse for matematisk verktøy og god innsikt i matematiske ideer som ligger til grunn for sentrale, praktiske anvendelser i tjenesten og ellers i ingeniørstudiet. Faglig innhold: rekker og følger, differensligninger, vektorer, Fouriertransformasjon, Laplacetransformasjon.
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Knowledge
After completing the course, the cadet is able to:
- explain and apply the theory from selected topics in Fourier analysis
- use and understand the theory of the Laplace transform enough to be able to use engineering subjects during his/her service in the Navy
- calculate vectors and understand the importance of vector calculus
- calculate functions of several variables and vector functions/vector fields and explain how this is related to vector calculus
- understand and apply the theory of infinite series, power series and simple methods for solving difference equations
Skills
After completing the course, the cadet is able to:
- understand and use mathematical representations and formulate engineering problems in mathematical form
- use problem solving and model building as a tool for solving tasks in his/her further service
- identify relationships between mathematics and engineering applications and otherwise in his/her studies and analyse results from mathematical calculations
- apply solution methods and implement mathematical reasoning
General competences
After completing the course, the cadet is able to:
- understand relationships between mathematics and engineering applications
- analyse the grade of mathematical understanding that is necessary for serving in the Navy and keeping up to date professionally
- use mathematics to communicate about engineering problems
- understand that the level of precision in mathematical language makes it appropriate for structuring engineering problems and providing openings for solutions
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Det legges vekt på å bruke eksempler fra andre tekniske emner og fra tjeneste i Sjøforsvaret som illustrasjon.
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Antall sider pensum: 215
Croft, A., Davison, R., Hargreaves, M., & Flint, J. (2017). Engineering Mathematics - A Foundation for Electronic, Electrical, Communications and System Engineers (5.utgave). Harlow: Pearson-Education (kap. 6.1-6.5 og 18; 22; 7, 25 and 26; 24.1-24.8; 21.1-10)
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Vurderingsform: Muntlig, individuell. Muntlig eksamen på ca 35 minutter der man først vil bli eksaminert i grupper på 2, deretter individuelt. Eksamen må bestås.
Varighet: 35 minutter
Andel: 50%
Hjelpemidler: Godkjent kalkulator, lærebok og skolens formelsamling
Vurderingsform: Mappevurdering, individuell
Varighet: 1 semester
Andel: 50%
Mappen er basert på 1 til 2 prøver, 2 til 3 innleveringer og 1 prosjektoppgave. Innholdet i mappen vil bli kunngjort ved semesterstart.
