FYSS6351 Fluid Mechanics 1, part A (5 cr)

• Basics of vector and tensor analysis

• Classification of flow conditions: time dependence, compressibility, friction, turbulence

• Classification of fluids based on viscosity properties

• Key consepts of fluid mechanics: pressure, velocity, shear stress, viscosity

• Reynolds transport theorem

• Conservation of mass, momentum, angular momentum and energy

• Bernoulli’s equation 

At the end of this course, students will be able to

• use vector and tensor algebra in solving problems in fluid mechanics.

• classify a flow situation and choose the relevant equations in order to solve a related problem.

• distinguish a Newtonian and a non-Newtonian fluid when given the viscosity behavior of the fluid.

• calculate the pressure distribution of a static fluid and the resulting forces on immersed planar surfaces.

• find equations for streamlines and pathlines in a simple flow field.

• utilize the Reynolds transport theorem and conservation laws in a macroscopic level in solving problems in fluid mechanics. 

Basic studies in physics, vector calculus. 

Course material (both English and Finnish) is distributed during the course.