2022 Structural Mechanics and Hydraulics Laboratory II

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Academic unit or major
Undergraduate major in Civil and Environmental Engineering
Kanae Shinjiro  Nakamura Takashi  Yoshimura Chihiro  Fujii Manabu  Kinouchi Tsuyoshi  Nakamura Takashi  Seto Rie  Hirose Sohichi  Wijeyewickrema Anil  Morikawa Hitoshi  Sasaki Eiichi  Akutsu Ayako  Tomobe Haruka 
Class Format
Media-enhanced courses
Day/Period(Room No.)
Thr5-8(構造力学実験室・, 水理実験室)  
Course number
Academic year
Offered quarter
Syllabus updated
Lecture notes updated
Language used
Access Index

Course description and aims

This course consists of two experiments: (i) experiments on structural mechanics and (ii) experiments on hydraulics.
In the experiments on structural mechanics, students will obtain a deeper understanding on basic theory of beam and buckling phenomenon of column structures and dynamic behaviors (vibration) of beam. In the experiments on hydraulics, students will obtain a deeper understanding on fundamental principles regarding water flow which have been studied in the lecture (Hydraulics II). The two different experiments were conducted, namely “water flow in pipe line” and “water flow in open channel”. Student will have chances to determine experimental settings and methods by themselves, where students will acquire the ability to actively wrestle with problems on experimental errors and efficiencies.
In this class, students’ performance will be evaluated by three activities: (i) “interview prior to experiment” where students’ background knowledge on structural mechanics and hydraulics will be checked if they already have an sufficient knowledge to conduct the experiment, (ii) “experiment” where students’ attitude and leadership will be considered during the observation and measurement of various phenomena and (iii) “interview after the experiment” where students’ understanding on the experimental results and analysis will be evaluated.

Student learning outcomes

【Structural mechanics experiments】
1) Discuss about the basic theory of beam based on the measuments.
2) Discuss about buckling phenomenon considering influential parameters
3) Measure, analyze, and discuss about the vibration of beam.
【Hydraulics experiments】
1) Measure, analyze and discuss about the resistance occurring in the turbulence flow and laminar flow in circular pipe
2) Measure, analyze and discuss about open channel flow including hydraulic jump and water flow around the cylinder-shaped material.
3) Manage to efficiently conduct the experiments considering what is the source of experimental errors and how to obtain appropriate data.


【Structural mechanics experiments】basic theory of beam, buckling, vibration
【Hydraulics experiments】circular pipe flow, laminar flow, turbulence flow, resistance law, open channel flow, hydraulic jump, flow around cylinder-shaped material

Competencies that will be developed

Specialist skills Intercultural skills Communication skills Critical thinking skills Practical and/or problem-solving skills

Class flow

【Structural mechanics experiments】(i) interview prior to experiment, (ii) experiment and (iii) interview after the experiment will be conducted for each experiment.
【Hydraulics experiments】(i) interview prior to experiment, (ii) demonstration of experimental equipment and procedure, (iii) experiment and (iv) interview after the experiment will be conducted for each experiment.

Course schedule/Required learning

  Course schedule Required learning
Class 1 【Structural mechanics experiments】Experiments on basic theory and vibration of beam Plan of Experiment, Data analysis and discussion using the comparison between theory and measurement, evaluation of damping using the data of vibration tests
Class 2 【Structural mechanics experiments】Observation and measurement of buckling phenomenon of columns Evaluation of buckling strength, relationship between slenderness ratio and buckling strength, data analysis of inelastic buckling
Class 3 【Hydraulics experiments】Circular pipe flow, measurement of Piezometric head, water discharge and Reynolds number, determination of resistance in laminar and turbulence flow Data analysis and relevant discussion about circular pipe flow including drawing of hydraulic gradient line, relationship between friction loss and Reynolds number
Class 4 【Hydraulics experiments】Open channel flow, drawing of hydraulic jump, measurement of water level and velocity of hydraulic jump, measurement of water velocity distribution in uniform flow, observation of flow characteristics around the cylinder-shaped material and measurement of fluid resistance Data analysis and relevant discussion about open channel flow including specific energy, logarithmic law, fluid resistance (drag) working on cylinder-shaped material in smooth flow

Out-of-Class Study Time (Preparation and Review)

To enhance effective learning, students are encouraged to spend a certain length of time outside of class on preparation and review (including for assignments), as specified by the Tokyo Institute of Technology Rules on Undergraduate Learning (東京工業大学学修規程) and the Tokyo Institute of Technology Rules on Graduate Learning (東京工業大学大学院学修規程), for each class.
They should do so by referring to textbooks and other course material.


【Structural mechanics experiments】Chitoshi Miki, 『Koukouzou』,Kyouritsu-syuppan(2000/07),ISBN-13: 978-4320073913 (Japanese)
【Hydraulics experiments】Mikio Hino, Hydrodynamics 『Meikai Suirigaku』, Maruzen (1983/01), ISBN-13: 978-4621027783 (Japanese)

Reference books, course materials, etc.

【Structural mechanics experiments】Kiyohiro Ikeda and Kazuo Murota,『Kouzoukeino-zakutsutobunki』, Koronasya(2001/11),ISBN-13: 978-4339052107 (Japanese)
【Hydraulics experiments】Iehisa Nezu, Akihiro Tominaga 『Suirigaku』, Asakurashoten (2000/04), ISBN-13: 978-4254261394 (Japanese)

Assessment criteria and methods

Students will be given the final evaluation using the average of the evaluations of structural mechanics and hydraulics.
【Structural mechanics experiments】Student's performance will be evaluated by individual report (100%).
【Hydraulics experiments】Students’ performance will be evaluated by five activities: (i) interview prior to experiment (20%), (ii) experiment (20%), (iii) interview after the experiment (30%) and (iv) final report (30%).

Related courses

  • CVE.N230 : Structural Mechanics and Hydraulics Laboratory I
  • CVE.A202 : Structural Mechanics I
  • CVE.A301 : Structural Mechanics II
  • CVE.A310 : Steel Structures
  • CVE.A210 : Structural Dynamics in Civil Engineering
  • CVE.B201 : Hydraulics I
  • CVE.B202 : Hydraulics II

Prerequisites (i.e., required knowledge, skills, courses, etc.)

Hydraulics II(CVE.B202) (If you have not completed the lecture in the left, please contact to faculties for hydraulics listed below)


Rooms 901 and 905 of G3 are used for one of the structural mechanics experiments.
Pay attention to the meeting place.

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