Reconstruction of an Actual Vehicle Rollover as a Special Project in an Undergraduate Dynamics Course

Ashby, Blake M.; Asay, Alan F.

doi:10.18260/1-2--18863

2011 ASEE Annual Conference &Amp; Exposition Proceedings

DOI: 10.18260/1-2--18863

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Reconstruction of an Actual Vehicle Rollover as a Special Project in an Undergraduate Dynamics Course

Blake M. Ashby¹,

Alan F. Asay²

Abstract: The reconstruction of a vehicle rollover was assigned as a special group project in an undergraduate course in dynamics at Grand Valley State University. The students were provided with a diagram documenting the path of an actual vehicle rollover. Using the principles learned in the dynamics course, the students were tasked with determining the translational velocity of the vehicle throughout the event, including the pre-trip, trip, and tumbling phases. The project also required the students to calculate the y… Show more

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Cited by 1 publication

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Use of an Affordable High Speed Video Camera for Visualization in Mechanical Engineering Courses

Baker¹,

Capece²

2013 ASEE Annual Conference &Amp; Exposition Proceedings

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Methods for providing visualization of various phenomena in engineering courses can be beneficial to student learning. Animations created using software can provide students an excellent visual learning experience in some cases. Another approach is to produce slow-motion video recordings of actual high speed physical events. However, professional-level high speed video equipment can cost thousands of dollars. Due to budgetary constraints, expensive highspeed video equipment is not affordable for many academic programs. This paper describes use of an affordable "off-the-shelf" camera that can record video at up to 1000 frames per second (fps) to assist in the teaching of a mechanical vibrations course and a fluid mechanics course in a mechanical engineering curriculum. Examples used in the vibrations and fluid mechanics classes are overviewed, and lessons learned are discussed. In some cases, the slow motion video is used in conjunction with computer-based animations from a finite element analysis program, providing the students with an additional visual aid and also providing some validation for the students that results from the finite element analysis software are valid. The pros and cons of various camera settings, and also some limitations of this low-cost alternative, are discussed. Also, some advantages of combining video from the high speed camera with video from other sources, such as video from screencasting software, are illustrated.

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Use of an Affordable High Speed Video Camera for Visualization in Mechanical Engineering Courses

Baker¹,

Capece²

2013 ASEE Annual Conference &Amp; Exposition Proceedings

View full text Add to dashboard Cite

show abstract

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Reconstruction of an Actual Vehicle Rollover as a Special Project in an Undergraduate Dynamics Course

Cited by 1 publication

References 6 publications

Use of an Affordable High Speed Video Camera for Visualization in Mechanical Engineering Courses

Use of an Affordable High Speed Video Camera for Visualization in Mechanical Engineering Courses

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