2103-617: Advanced Dynamics Handout # 2: Review of Dynamic
... the motion of the pendulum for any arbitrary θ (t). In addition, this system has one degree of freedom, thus only one equation of motion is needed. Specifically, the number of equations of motion used to describe the motion is equal to the number of degrees of freedom of that system. If only the sma ...
... the motion of the pendulum for any arbitrary θ (t). In addition, this system has one degree of freedom, thus only one equation of motion is needed. Specifically, the number of equations of motion used to describe the motion is equal to the number of degrees of freedom of that system. If only the sma ...
Ch. 11.3
... • 2. Force= mass x acceleration. The amount of force needed to move an object is equal to the amount of mass in the object and how much you want to accelerate it. • 3. For every action there is an = and opposite reaction ...
... • 2. Force= mass x acceleration. The amount of force needed to move an object is equal to the amount of mass in the object and how much you want to accelerate it. • 3. For every action there is an = and opposite reaction ...