The course is included in these curricula and study modules

The course takes place in period

2 (2020-10-26 to 2020-12-31)

Level/category

Professional studies

Teaching language

English

Type of course

Compulsory

Cycle/level of course

First

Recommended year of study

3

Total number of ECTS

5 cr

Competency aims

The aim of the study unit is to give the student a
knowledge on elementary fluid dynamics that has relevance in design and analyses of fluids at rest and in motion.

Learning outcomes

At the end of the course the student is
expected to:
- Know some basic characteristics of fluids
like density, viscosity etc.
- Determine pressure drops, levels, flows and
velocities in pipe flow systems by using the
Bernoulli equation.
- Determine pressure drops caused by frictional
losses in pipe flow systems.
- Determine the power for a pump in a
pipe flow system
-Model laminar fluid flow using using finite element method (FEM) on COMSOL

Course contents

01. Fluid Static
02. Fluid Forces
03. Elementary fluid dynamics/continuity/
04. The Bernoulli equation
05. Laminar and turbulent flow
06. Pressure drop in pipe flow
07. Introduction to Pumps

Prerequisites and co-requisites

Linear Algebra, Differential calculus, Integral calculus

Additional information

The course is conducted remotely online in 2020. Refer to itslearning for more information.

All dates for graded exercises given in itslearning.

Refer to itslearning for zoom links for remote online lectures.

Recommended or required reading

Course Textbook: Fluid Mechanics, Second edition in SI Units by R.C. Hibbeler.

Additional reference
Munson Bruce, Young Donald, ... :Fundamentals of
Fluid Mechanics.

Study activities

  • Lectures - 16 hours
  • Individual- and group instruction - 12 hours
  • Practical exercises - 17 hours
  • Project- and production work/artistic activities - 30 hours
  • Individual studies - 40 hours
  • Internet-based studies - 20 hours

Workload

  • Total workload of the course: 135 hours
  • Of which autonomous studies: 135 hours
  • Of which scheduled studies: 0 hours

Mode of Delivery

Supported virtual education

Assessment methods

Essays, reports, productions and portfolio

Assessment requirements

Weekly Assignments up to 30 %
Course Assignment up to 30 %
Final Exam up to 40 %

A total mark of 50% is required to pass the course.Dates of assignments given in itslearning.

Follow good scientific practice in studies at Arcada:
https://start.arcada.fi/en/my-studies/degree-thesis/ethical-questions-a…

GRADING.
50-59 Grade 1 Satisfactory
60-69 Grade 2 Satisfactory
70-79 Grade 3 Good
80-89 Grade 4 Good
90-100 Grade 5 Excellent

Teacher

Gebrehiwot Silas

Examiner

Gebrehiwot Silas

Group size

No limit (9 students enrolled)

Assignments valid until

Until date 2020-11-10

The timetable of the course

Follow schedules on itslearning.

Course enrolment period

2020-10-12 to 2020-11-08

Assessment methods

2020-12-15 - Reports and productions

Room reservations
Date Time Room Title Description Organizer
2020-10-27 13:15 - 16:00 D4109 Fluid Mechanics. Conducted remotely online. Vihtonen Mathew
2020-11-03 13:15 - 16:00 D4109 Fluid Mechanics. Conducted remotely online. Vihtonen Mathew
2020-11-10 13:15 - 16:00 B320 Fluid Mechanics. Conducted remotely online. Vihtonen Mathew
2020-11-17 13:15 - 16:00 B320 Fluid Mechanics. Conducted remotely online. Vihtonen Mathew
2020-11-24 13:15 - 16:00 D4109 Fluid Mechanics. Conducted remotely online. Vihtonen Mathew
2020-12-01 13:15 - 16:00 D4109 Fluid Mechanics. Conducted remotely online. Vihtonen Mathew
2020-12-08 13:15 - 14:00 D4109 Fluid Mechanics (optional remote drop in). Vihtonen Mathew
2020-12-15 13:15 - 14:00 D4109 Fluid Mechanics remote optional drop in. Vihtonen Mathew

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