- 1.9.10. Axioms
- 8.9.10. System of converging forces
- 15.9.10. Any system. The screw(). Variants ..л . Compound .
- 22.9.10. A Truss. Method
of a cutting of knots. Diagramme Maksvella-Kremony. A friction.
Have passed lecture: ("the list 22")
T-01-09,
T-02-09 *, T-03-09,
T-04-09 *, T-05-09,
T-06-09 *, T-07-09*
- Problems for students, from "the list 22": -01-09... -04-09, -05-09... -07-09. A way to leave from "the list 22". Will solve a problem, issue it on single sheets of format 4 on the one hand with fields, hand over to the lecturer (on Wednesday). If all is true - in a week you will not be in this list. If is not present - there will be one more problem (last chance). Decision examples see the Answer book and a site in Decision section.
- 29.9.10. Introduction in kinematics. A point. The elementary movements of a firm body. Euler's formula.
- 6.10.10. Flat movement. Theorems of projections and the ends of vectors of speeds. Ц. The equations of three angular speeds. The trapeze theorem.
- 11 students have left the list 22!
- 13.10.10. Kinematic columns Novozhilov-Zatsepin. Difficult movement of a point. Point movement on a surface of the Earth. A rule Zhukovsky.
- 7 more students have left the list 22! (An error only at one student). The Closing date - 20.10.10
- 20.10.10. The plan of speeds. Accelerations at flat movement. Spherical movement. Euler's kinematic equations in a projection to mobile axes.
- 3 more students have left the list 22 (ь, Чг and Бч)
- 27.10.10. Introduction in dynamics. The equations of dynamics of a point. The general theorems. Dynamics of system.
- The list of debtors (a problem about a friction for 22.9.10). A new problem for "the list 22". To solve and hand over till 10.11.10.
- 3.11.10. Communications. A principle of possible movings. Principle 'лб. Equation г of 2nd sort. An example: a problem with 2 degrees of freedom. Have passed lecture: ("the list 03") Problems for students, from "the list 03". The decision to bring on the following lecture.
- 10.11.10. Kinetic energy. Force fields. Эцльы surfaces. Power lines. Full energy. Kinetic potential. The equation of movement in the form of г.
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