Basic Information
Equation of Motion For an Oscillator, Natural Frequency and Inertia, Equivalent Stiffness, Energy and Power Balance, Nonlinear Oscillator, Phase Plane, Stability, Response to Impulse, Base Excitation, Eccentric Mass, Vibration Isolation, Multi Degrees of Freedom Systems. Modes of Vibration, Virtual Work, Introduction to Lagrange Equations. Equations Decoupling, Vibration in Complex Form. Approximation Methods Swept Sine Excitation. Laboratory Exercise And Project.
Faculty: Mechanical Engineering
|Undergraduate Studies
Pre-required courses
(34010 - Dynamics and 34029 - Solid Mechanics 2 and 34032 - Linear Systems M and 34033 - Numerical Analysis M and 34056 - Int. to Scientific and Eng. Computing and 104228 - Partial Differential Equations/m) or (34010 - Dynamics and 34029 - Solid Mechanics 2 and 34032 - Linear Systems M and 34033 - Numerical Analysis M and 34056 - Int. to Scientific and Eng. Computing and 104218 - Partial Differential Equations/h)
Course with no extra credit
15012 - תנודות 74009
Course with no extra credit (contained)
Related Books
Semestrial Information
Weekly Hours
3 Academic Credit • 2 Lecture Hours • 1 Discussion Hours • 1 Lab Hours • 4 Project Hours
Exams
Session A (International School): 17-09-2024 Session B (International School): 07-10-2024Registration Groups
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Weekly Hours
3 Academic Credit • 2 Lecture Hours • 1 Discussion Hours • 1 Lab Hours • 4 Project Hours
Responsible(s)
Yoav Vered
Notes
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קבוצה 77 סגורה לסיניים בלבד.
Exams
Session A: 18-04-2024 09:00 - 12:00- דייויס 430. 433. 440. 441. 442. 443.
- ב.המכינה 106. 107. 109. 113. 214.
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Weekly Hours
3 Academic Credit • 2 Lecture Hours • 1 Discussion Hours • 1 Lab Hours • 4 Project Hours
Responsible(s)
Oded Gottlieb
Registration Groups
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