Concepts form calculus. Trigonometric functions. Vectors in 2D and 3D. Integral calculus and methods such as integration by parts and integration by inverse chain rule. Practical applications of integrals. Probability. Mechanics: potential and kinetic energy, momentum, and more on force and movement in 2D.
Learning outcome
Knowledge: Know about the concepts presented in the course so that the student is able to take further courses in mathematics and physics required in the engineering degree, particularly Mathematical Methods 1 (MAT100) Physics (FYS100). The student will during the course gain knowledge that must be applied in the courses running in parallel. Skills: The student will be able to structure, solve, document and present problems from the course content. They will also be able to interpret and evaluate solutions and comment upon relevance and precision. General competence: The student will see the use of concepts from mathematics as a tool for solving problems from both math and physics. They will see how physical laws form the basis for creating mathematical models, and how math and physics are interconnected in all the themes in the course. Through this course and Introduction to math and physics 1 (YMF100_1), the students are able to communicated with others about problems in science and technology.
Forkunnskapskrav
Ingen
Exam
Form of assessment
Weight
Duration
Marks
Aid
Exam system
Withdrawal deadline
Exam date
Home exam
1/1
4 Hours
Passed / Not Passed
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24.11.2020
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Vilkår for å gå opp til eksamen/vurdering
Theortical exercises, Theortical exercises
Theortical exercises
Mandatory work demands (such as hand in assignments, lab- assignments, projects, etc) must be approved by subject teacher within the specified deadlines.
5 hours lectures, 2 hour problem solving with teaching assistants, and 1 hour with review of problems from mandatory (and non-mandatory) exercises per week.