Driving vibrations with sawtooth waves
The previous post looked at driving a vibrating system with square waves rather than the more customary sine waves.
You could think of a square wave as a crude approximation to a sine wave. A sawtooth wave is another crude approximation to a sine wave, and so it would be interesting to see how systems driven by a sawtooth forcing function differ from those driven by a square or sinusoidal forcing function.
With a square wave, the differences were most pronounced at low frequencies, i.e. when the driving frequency was low relative to the natural frequency. The same is true for sawtooth waves, but with some interesting differences.
As before we will look at the equation
u'' + u = sin(t)
and with sine replaced with a variation, this time a sawtooth wave rather than a square. We will use initial conditions u(0) = u(0) = 1.
We start with = 1, i.e. driving the system at its natural frequency.
We see the resonance we'd expect when driving a system at its natural frequency. The amplitudes are lower for the sawtooth forcing function than the sinusoidal forcing function.
When we back away a little from the resonant frequency, setting = 0.9, we see beats.
When we reduce to 0.5, we get resonance again for the sawtooth forcing solutions.
At = 0.4 we see something like beats again.
And at = 1/3 it looks like we have resonance again for the sawtooth-driven system.
We also see beats at = 1/n for all integer n. I've tried this for n up to 12. But at other frequencies that are not reciprocals of integers I see periodic solutions.
I have only investigated this numerically. Do any of you know of analytical results that apply here?
Update: There's a simple reason why driving frequencies of 1/n do indeed create resonance: The Fourier series for the driving function has a component at the resonant frequency. Thanks to gmvh for pointing this out.
The square wave has a similar resonance at driving frequency 1/n, but only when n is an odd number. I missed that because I didn't happen to try any frequencies of that form. Here's an example with n = 5.
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