![Oscillatory motion. Simple harmonic motion. The simple pendulum. Damped harmonic oscillations. (Lecture 1) - презентация онлайн Oscillatory motion. Simple harmonic motion. The simple pendulum. Damped harmonic oscillations. (Lecture 1) - презентация онлайн](https://cf.ppt-online.org/files/slide/q/QlNqc5RPoEv1ZyjfM6hiJ7DIzbOVUAe8X3GSLK/slide-8.jpg)
Oscillatory motion. Simple harmonic motion. The simple pendulum. Damped harmonic oscillations. (Lecture 1) - презентация онлайн
![The equation of a damped simple harmonic motion is md^2x/dt^2 + bdx/dt + kx = 0 . Then the angular frequency of oscillation is The equation of a damped simple harmonic motion is md^2x/dt^2 + bdx/dt + kx = 0 . Then the angular frequency of oscillation is](https://haygot.s3.amazonaws.com/questions/2005843_1400993_ans_b697449b46d84ff8a23cb449509c5e77.jpg)
The equation of a damped simple harmonic motion is md^2x/dt^2 + bdx/dt + kx = 0 . Then the angular frequency of oscillation is
![newtonian mechanics - Why do my boundary conditions not work out in a damped harmonic oscillator? - Physics Stack Exchange newtonian mechanics - Why do my boundary conditions not work out in a damped harmonic oscillator? - Physics Stack Exchange](https://i.stack.imgur.com/sJi1f.png)
newtonian mechanics - Why do my boundary conditions not work out in a damped harmonic oscillator? - Physics Stack Exchange
![The amplitude of a damped harmonic oscillator becomes (127)^th of its initial value A0 after 6 minute. What was the amplitude after 2 minutes ? The amplitude of a damped harmonic oscillator becomes (127)^th of its initial value A0 after 6 minute. What was the amplitude after 2 minutes ?](https://haygot.s3.amazonaws.com/questions/2063842_1395527_ans_8db01b2a7f714959ad396ae560e27631.jpeg)