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강의 소개 및 정역학(0303) |
강의 소개와 정적 평형을 이루는 계에 대한 분석 |
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2. |
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정역학2(0308) |
정적 평형계에 대한 여러 예제 |
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3. |
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Newton's laws(0310) |
Newton의 법칙 및 가속계에 대한 문제 풀기 |
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4. |
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Newton's 2nd law and its application(0315) |
Drag force, polar coordinates |
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5. |
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Examples and small oscillation(0317) |
Drag force, angular acceleration, differential equations |
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6. |
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Types of oscillation(0329) |
Overdamping, underdamping, critical damping |
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7. |
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Coupled oscillation(0331) |
Coupled oscillation, normal modes |
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8. |
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Energy conservation(0405) |
Energy conservation, conservative force |
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9. |
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Momentum conservation(0407) |
Momentum conservation, Newton’s 3rd law |
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10. |
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Momentum conservation, Lagrangian method(0412) |
Collision and introduction to the Lagrangian method |
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11. |
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Conservation and symmetry(0419) |
Relation between symmetry and conservation |
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12. |
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Application of Hamilton’s principle(0421) |
Noether’s theorem & application |
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13. |
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Lagrangian method(0426) |
Problems using Lagrangian method |
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14. |
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Central force(0427) |
Nature of central force, effective potential |
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15. |
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Kepler’s laws(0428) |
Conic orbits, reduced mass, Kepler’s laws |
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Rotation 1(0503) |
Rotation in one direction, moment of inertia |
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Rotation 2(0504) |
Exercises in rotational motion |
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Angular momentum about the origin(0510) |
Moment of intertia tensor |
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General angular momentum(0512) |
Principal axes |
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Angular momentum and angular velocity(0517) |
Motion of a plate due to angular impulse |
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Free symmetric top(0524) |
Euler equation |
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Heavy symmetric top(0526) |
Precession and nutation |
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Accelerating frame 1(0531) |
Various fictitious forces |
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Accelerating frame 2(0602) |
Tidal force 1 |
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Accelerating frame 3(0607) |
Tidal force 2 |
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