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Mechanics - free course from Open Education, training 12 weeks, Date November 30, 2023.
Miscellaneous / / December 04, 2023
Currently, Moscow University is one of the leading centers of national education, science and culture. Raising the level of highly qualified personnel, searching for scientific truth, focusing on humanistic ideals of goodness, justice, freedom - this is what we see today as following the best university traditions Moscow State University is the largest classical university in the Russian Federation, a particularly valuable object of cultural heritage of the peoples of Russia. It trains students in 39 faculties in 128 areas and specialties, graduate students and doctoral students in 28 faculties in 18 branches of science and 168 scientific specialties, which cover almost the entire spectrum of modern university education. Currently, more than 40 thousand students, graduate students, doctoral students, as well as specialists in the advanced training system are studying at Moscow State University. In addition, about 10 thousand schoolchildren study at Moscow State University. Scientific work and teaching are carried out in museums, at educational and scientific practice bases, on expeditions, on research vessels, and in advanced training centers.
A new element of the Russian education system - open online courses - can be transferred to any university. We make this a real practice, expanding the boundaries of education for every student. A full range of courses from leading universities. We are systematically working to create courses for the basic part of all areas of training, ensuring that any university can conveniently and profitably integrate the course into its educational programs
"Open Education" is an educational platform offering massive online courses from leading Russian universities that have joined forces to provide everyone with the opportunity to receive a high-quality higher education education.
Any user can take courses from leading Russian universities completely free of charge and at any time, and students of Russian universities will be able to count their learning results at their university.
IntroductionB.1 Space and time in Newtonian mechanicsB.2 Reference systemChapter 1. Kinematics and dynamics of the simplest systemsP.1.1. Kinematics of a material point and the simplest systemsP.1.2. Newton's lawsP.1.3. Laws describing the individual properties of forcesChapter 2. Conservation laws in the simplest systemsP.2.1. Law of conservation of momentumP.2.2. Mechanical energyP.2.3. The connection between conservation laws and the homogeneity of space and timeChapter 3. Non-inertial reference systemsA.3.1. Non-inertial reference systems. Inertia forcesP.3.2. Manifestation of inertial forces on EarthP.3.3. The principle of equivalenceChapter 4. Fundamentals of relativistic mechanicsP.4.1. Space and time in the theory of relativityP.4.2. Lorentz transformationsP.4.3. Consequences Lorentz transformationsP.4.4. IntervalP.4.5. Addition of speedsP.4.6. Equation of motionA.4.7. Momentum, energy and mass in theory relativityChapter 5. Kinematics and dynamics of a rigid bodyP.5.1. Kinematics of a rigid bodyP.5.2. Dynamics of a rigid bodyP.5.3. Kinetic energy of a solid P.5.4. Gyroscopes, topsChapter 6. Fundamentals of mechanics of deformable bodiesP.6.1. Deformations and stresses in solidsP.6.2. Poisson's ratioP.6.3. Relationship between Young's modulus and shear modulusA.6.4. Energy of elastic deformationsChapter 7. OscillationsP.7.1. Free vibrations of systems with one degree of freedomP.7.2. Forced vibrationsP.7.3. Addition vibrationsP.7.4. Oscillations in coupled systemsP.7.5. Nonlinear oscillationsA.7.6. Parametric oscillationsP.7.7. Self-oscillationsChapter 8. WavesP.8.1. Propagation of impulse in a medium. Wave equationP.8.2. Density and energy flow in a traveling wave. Vector UmovaP.8.3. Wave reflection, vibration modesP.8.4. Elements of acousticsP.8.5. Shock wavesChapter 9. Fundamentals of hydro and aeromechanicsP.9.1. Fundamentals of hydro- and aerostaticsP.9.2. Stationary flow of incompressible fluidP.9.3. Laminar and turbulent flow. Flow of liquid or gas around bodies
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