![]() ![]() 11111.1.5 Rotational kinetic energy in celestial bodies. 107ġ1.1.1 Moment of inertia and rotational kinetic energy. 104ġ1 Week 9 10711.1 Lecture 19: Rotating rigid bodies, inertia and axis theorems. 97ĩ.3 Lecture 17: Momentum of individual objects. 969.2.2 Inelastic collisions seen from the center of mass frame. 94ĩ.2.1 Elastic collisions seen from the frame of the center of mass. 939.2 Lecture 16: Elastic and inelastic collisions. 89ĩ Week 7 919.1 Lecture 15: Momentum and its conservation. 83Ĩ.2 Lecture 14: Orbits and escape velocity. ![]() 818.1.3 Motion of a ball along a circular track. 808.1.2 Another look at a spring oscillator. 77Ĩ Week 6 798.1 Lecture 13: Equation of motion for simple harmonic oscillators. 727.2.3 Newton’s law of universal gravitation. 707.2.2 Conservation of mechanical energy. 697.2.1 Taking the step to three dimensions. 66ħ.2 Lecture 11: Work, energy and universal gravitation. 63ħ.1.1 Simple harmonic oscillators: mathematical derivation. 58ħ Week 5 637.1 Lecture 10: Hooke’s law, simple harmonic oscillator. ![]() 56ĥ.2.1 Friction on a block with a pulley. 49ĥ Week 3 525.1 Lecture 7: Weight, perceived gravity, and weightlessness. 484.3.6 Tension and another example of Newton’s laws in use. 464.3.4 Examples of Newton’s laws in use. 43Ĥ.3 Lecture 6: Newton’s first, second, and third laws. 424.2.4 Artificial gravity through centripetal acceleration. 404.2.3 Centrifuges and more on centripetal acceleration. 37Ĥ.2 Lecture 5: Uniform circular motion. 32Ĥ Week 2 344.1 Lecture 4: The motion of projectiles. 313.3.1 3-dimensional motion to two independent 1-dimensional motions. 293.2.5 General forms for one-dimensional motion. 273.2.3 Calculating the average speed of a bullet. 273.2.1 Distance vs displacement and velocity vs speed. 26ģ.2 Lecture 2: Introduction to Kinematics. 223.1.2 Scaling arguments and Galileo Galilei. 18ģ Week 1 213.1 Lecture 1: Units, dimensions and scaling arguments. 182.5.3 Geometrical interpretation of the cross product. 162.5 The cross product / vector product. 15Ģ.4.1 Geometrical interpretation of the dot product. 14Ģ.3 Vector addition and subtraction, continued. 2 Vector mathematics 112.1 Vector addition and subtraction. ![]()
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