This simulation plan aims to explain and document all steps to be taken in the simulation
analysis of the Fokker-100 case. This case is the scenario in which the aircraft touches the
ground during landing, introducing loads on the landing gear. The landing gear consists of
2 rear gears around mid-span and one in the front. Furthermore, the pilot uses the rudder
which induces a lateral force on the tail.
As stated in the assignment, it is required to find the maximum normal stress and location
of this in the fuselage, the maximum shear stress and its location in the fuselage, and the
flow in the frames that introduce the loads from the landing gears into the
A complete template for the MSc Geomatics thesis.
It contains all the parts that are required and is structured in such a way that most/all supervisors expect. Observe that the MSc Geomatics at TU Delft has no formal requirements, how the document looks like (fonts, margins, headers, etc) is entirely up to you. We basically took the template arsclassica (by Lorenzo Pantieri), which is an adaption of the original `classicthesis package from André Miede, added the front/back matters (cover page, copyright, abstract, etc.), and gave examples for the insertion of figures, tables and algorithms.
This template (v1.4.1) aims to simplify and improve the official (Xe)LaTeX template provided by the TU Delft. It features a redesigned cover page and a rewritten class file for easier customization.
For the documentation, visit https://dzwaneveld.github.io