Understanding
the seismic behavior and performance of structures under earthquake ground
shaking considering the various factors like structural stiffness, building
period, soil properties and frequency of ground shaking becomes effective if
lectures are supplemented with actual demonstration through model testing and
videos. Experiential learning through shake table testing and competitions are
opportunities to understand more about earthquakes. The introduction of shake
table activities in schools can enhance students’ comprehension of
earthquake-resistant designs. These activities also stimulate students’
creativity in seismic engineering.“Experiential
learning is an engaged learning process whereby students “learn by doing” and
by reflecting on the experience.” Examples of ELE
activities are hands-on laboratory experiments, internships, practicums, field
exercises, study abroad and undergraduate research. Through ELE
activities, the teacher aims to apply Kolb's theory on ELE which consists of a
spiral of learning involving four phases (https://www.bu.edu/ctl/guides/experiential-learning/):
- Concrete
Experience – Engaging directly in authentic or real-world situation
- Reflective
Observation – Relating observations to past experience and knowledge
- Abstract
Conceptualization – Generating ideas and distilling perceptions
- Active
Experimentation – Testing new ideas and designs, honing new skills
To
maximize and test the capability and performance of the shake table, a hands-on
group exercise, “Shake the Tower
Challenge” is introduced as a fourth hour activity in the undergraduate
course on earthquake engineering with course code, STERQUA. A fourth hour
activity is a student-centered learning activity which is accomplished outside
of the regular class meetings at their own time and place. The main objective
of the exercise is for the students to develop an understanding and an
intuition regarding the dynamic nature of structures when subjected to ground
shaking. The “Shake the Tower Challenge”
is a group exercise where the students construct a 24-inch tall tower made of
sticks glued together by glue stick. The shake table exercise as an experiential learning strategy is described as follows:
Watch the Video of a Group Shake Table Construction and Testing
Through this exercise the students observed the
swaying of the tower at different frequencies and the change of the swaying
with respect to frequency and amplitude as the tower is damaged. The student
feedback on the exercise is positive, to quote one student: “The Shake the Tower Challenge was a very
interesting activity because I was able to view various towers and how they
performed under various shake table settings. It helped me understand and
appreciate the concepts related to structure stiffness, period, frequency, and
displacement. It was fun building towers and experimenting with the shake table
to create the competition parameters because I was able to apply the lessons
learned (in structural dynamics). I noticed that the best towers were the ones
that had designs that minimized the number of joints while still being able to
provide bracings. This helped reinforce my understanding of building
retrofitting and the design of earthquake resistant structures. I would
definitely recommend this type of activity for future reference.”
Related link: https://animociv.blogspot.com/2023/11/dce-faculty-presents-papers-at-icee.html
Reference: "Experiential
Learning about Seismic Performance of Buildings through Shake Table
Competitions" by Jade Vanessa Ching, Aldrei Ong, Vicente Raphael Chan,
Rei Kevin Tungcab, Rodolfo Mendoza Jr., and Andres Winston
Oreta. Presented at the 9th
International Conference on Engineering Education Philippines (ICEE-PHIL) 2023, UPLB on Nov 10-11, 2023, Hosted by the Phil Association of Engg Schools (PAES).
