abstract.md

# Project-based engineering competition in upper-level engineering laboratory

In this paper, I will discuss a project-based competition in an upper-level
mechanical engineering laboratory course. I redesigned the course in Fall 2018
to prepare students to make engineering decisions and accomplish design goals.
My short-term objectives were to prepare the students to start
their capstone projects senior year and improve technical writing.
The course introduced static and dynamic beam models and experiments. The
project-based competition asked students to use a cantilever beam to measure the
mass of an object.   The laboratory course focused on learning
from failure in the form of writing exercises, peer-editing, and graded progress
reports during experiments. Students spent the first 9 weeks of the course following
experimental procedures and writing lab reports. In the final project-based
competition, the students designed their own set of experiments including finite
element analysis and experimental procedures. The students were graded upon
their approach to the problem and quantification of uncertainties in measured
and predicted values. I awarded a cash prize to the most accurate
mass measurement. I will discuss the impacts of the project-based competition on
the following year's senior capstone projects and detail the measured improvements in
technical writing throughout the semesters in Fall 2018 and Fall 2019. The
impacts will be measured based upon a standardized rubric and qualitative
interviews.

Topics:

- Cloud computing:

  - data processing/cleaning

  - statistics and uncertainty

  - curve fitting

- Numerical modeling

  - finite element analysis

  - convergence

  - verification vs validation

- Experiments

  - strain gage

  - calipers

  - accelerometers

  - thermocouples

- Technical writing

  - short documents (<5 pgs, <4 figures)

  - practice quantifying statements

  - learn from failure

  - specification-based grading - lab reports
	# Project-based engineering competition in upper-level engineering laboratory

	In this paper, I will discuss a project-based competition in an upper-level
	mechanical engineering laboratory course. I redesigned the course in Fall 2018
	to prepare students to make engineering decisions and accomplish design goals.
	My short-term objectives were to prepare the students to start
	their capstone projects senior year and improve technical writing.
	The course introduced static and dynamic beam models and experiments. The
	project-based competition asked students to use a cantilever beam to measure the
	mass of an object. The laboratory course focused on learning
	from failure in the form of writing exercises, peer-editing, and graded progress
	reports during experiments. Students spent the first 9 weeks of the course following
	experimental procedures and writing lab reports. In the final project-based
	competition, the students designed their own set of experiments including finite
	element analysis and experimental procedures. The students were graded upon
	their approach to the problem and quantification of uncertainties in measured
	and predicted values. I awarded a cash prize to the most accurate
	mass measurement. I will discuss the impacts of the project-based competition on
	the following year's senior capstone projects and detail the measured improvements in
	technical writing throughout the semesters in Fall 2018 and Fall 2019. The
	impacts will be measured based upon a standardized rubric and qualitative
	interviews.

	Topics:

	- Cloud computing:

	- data processing/cleaning

	- statistics and uncertainty

	- curve fitting

	- Numerical modeling

	- finite element analysis

	- convergence

	- verification vs validation

	- Experiments

	- strain gage

	- calipers

	- accelerometers

	- thermocouples

	- Technical writing

	- short documents (<5 pgs, <4 figures)

	- practice quantifying statements

	- learn from failure

	- specification-based grading - lab reports