| source Johns Hopkins University (X) |
level Graduate (13) Upper Level Undergraduate (9) Independent Academic Work (5) Lower Level Undergraduate (2) |
department Civil Engineering (X) |
Basic principles of classical mechanics applied to the motion of particles, system of particles and rigid bodies. Kinematics: analytical description of motion; rectilinear and curvilinear motions of particles; rigid body motion. Kinetics: force, mass, and acceleration; energy and momentum principles. Introduction to vibration. Includes laboratory experience. Prerequisites: 560.201 or 530.201, 110.109 Calculus II, 171.101 General Physics I.
Score: 10.464869 Details | Listing | Web page
Application of the principles of structural analysis for statically determinant and indeterminant structures (trusses, cables, beams, arches, and frameworks). Calculation of internal forces and stresses in members and structures. Determination of deflections by equilibrium and energy methods. Analysis of indeterminate structures by flexibility and stiffness solutions. Prereq: 560.201or 530.201
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Principles of behavior of reinforced concrete beams, columns, and slabs, with application to the design of elementary structures are introduced. The ultimate strength and the elastic methods of analysis are used. Prereq: 560.206
Score: 10.464869 Details | Listing | Web page
Application of soil mechanics theory and soil test results to the analysis and design of foundations for structures; retaining walls; embankments; design of pile and shallow footing foundations; slope stability. Prereq: 560.305
Score: 10.464869 Details | Listing | Web page
A study of the engineering design process from problem definition to the final design. There are team projects which include written and oral presentations. Requirements: Student must be a senior in Civil Engineering
Score: 10.464869 Details | Listing | Web page
Fundamentals of hydrodynamics, aerodynamics and flow-structure interactions with applications in coastal/ocean engineering and wind engineering. Topics include wind and current past blunt bodies, flow-induced structure vibrations, ocean waves and wave/flood loads, wind field and wind loads, and model testing.
Score: 10.464869 Details | Listing | Web page
Development and applications of the analysis of uncertainty, including basic probability, statistics and decision theory, in civil engineering areas of soil mechanics, structures, transportation and water resources. Prereq: 110.109
Score: 10.464869 Details | Listing | Web page
S/U grading only. Seminar series of speakers on various aspects of civil engineering. Different speakers are invited each semester. Civil engineering undergraduate students must take at least two semesters of seminar; typically completed in junior year.
Score: 10.464869 Details | Listing | Web page
S/U grading only. Seminar series of speakers on various aspects of civil engineering. Different speakers are invited each semester. Civil engineering undergraduate students must take at least two semesters of seminar; typically completed in junior year. Prereq: 560.491
Score: 10.464869 Details | Listing | Web page
S/U grading only. Seminar series of speakers on various aspects of civil engineering. Different speakers are invited each semester. Civil engineering undergraduate students must take at least two semesters of seminar; typically completed in junior year. Prereq: 560.492
Score: 10.464869 Details | Listing | Web page
S/U grading only. Seminar series of speakers on various aspects of civil engineering. Different speakers are invited each semester. Civil engineering undergraduate students must take at least two semesters of seminar; typically completed in junior year. Prereq: 560.493
Score: 10.464869 Details | Listing | Web page
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Score: 10.464869 Details | Listing | Web page
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Score: 10.464869 Details | Listing | Web page
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Score: 10.464869 Details | Listing | Web page
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Score: 10.464869 Details | Listing | Web page
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Score: 10.464869 Details | Listing | Web page
Prereq: 560.320 Steel Structures or comparable introductory steel design course. This course examines advanced design of structural steel buildings using the load and resistance factor design approach. Topics include plastic analysis of indeterminate structures, design of plate girders, and design of composite beams. Herman. Co-listed with 565.620.
Score: 10.464869 Details | Listing | Web page
Seminar series of speakers on various aspects of civil engineering. Different speakers are invited each semester. Full time civil engineering graduate students must enroll in the seminar course every semester unless excused by the Department.
Score: 10.464869 Details | Listing | Web page
This 1.5 hour course will address various themes related to modeling complex systems through critical evaluation of technical articles, open discussion, faculty presentations, and computational workshops. Teams of 3-5 faculty will develop monthly units based on different themes, examples of which may include: optimization and uncertainty modeling in science and engineering, particle-based modeling, experimental and field measurements in multi-scale models, linking atomistic- to continuum-scale models, challenges in climate and ocean modeling, homogenization and upscaling of small-scale data. This course is a requirement for MCS IGERT trainees, but it is open to all graduate students.
Score: 10.464869 Details | Listing | Web page
The course builds on the knowledge gained in classes on structural mechanics and solid mechanics, extending the concepts of those classes in two directions, (1) the inclusion of uncertainty in problems in mechanics and (2) consideration of mechanics phenomena which occur at small scales.
Score: 10.464869 Details | Listing | Web page
This course provides advanced theories and experimental techniques in structural engineering. Topics include dynamic scaling, instrumentation, data acquisition, signal processing, system identification, and experimental methods for structures. The class consists of lecture and laboratory sessions. Prerequisites: Structural Dynamics (560.752) or equivalent. Nakata
Score: 10.464869 Details | Listing | Web page
Sec. 01 â Staff Sec. 02 â Dalrymple Sec. 08 â Schafer Sec. 09 â Anandarajah Sec. 10 â Graham Sec. 11 â Igusa Sec. 14 â Shen Sec. 15 - Guest Sec. 16 - Nakata Sec. 17 - Herman
Score: 10.464869 Details | Listing | Web page
Sec. 01 â Staff Sec. 02 â Dalrymple Sec. 08 â Schafer Sec. 09 â Anandarajah Sec. 10 â Graham Sec. 11 â Igusa Sec. 14 â Shen Sec. 15 - Guest Sec. 16 - Nakata Sec. 17 - Herman
Score: 10.464869 Details | Listing | Web page
Sec. 01 â Staff Sec. 02 â Dalrymple Sec. 08 â Schafer Sec. 09 â Anandarajah Sec. 10 â Graham Sec. 11 â Igusa Sec. 14 â Shen Sec. 15 - Guest Sec. 16 - Nakata Sec. 17 - Herman
Score: 10.464869 Details | Listing | Web page
Sec. 01 â Staff Sec. 02 â Dalrymple Sec. 08 â Schafer Sec. 09 â Anandarajah Sec. 10 â Graham Sec. 11 â Igusa Sec. 14 â Shen Sec. 15 - Guest Sec. 16 - Nakata Sec. 17 - Herman
Score: 10.464869 Details | Listing | Web page