How Do You Combine Two Sound Waves Mathematically?

AI Thread Summary
To combine two sound waves mathematically, the user seeks to express the sum in the form y=Csin(kx-wt-"theta"). The initial equations are y=Asin(kx-wt) and y=Bsin(kx-wt-"phi"). A trigonometric formula has been applied, leading to an expression involving sine and cosine components, but the user struggles to simplify it to the desired form. It is suggested to utilize complex numbers to facilitate the combination of the waves. The final expressions for C and theta are dependent on the amplitudes A, B, and phase difference phi.
mgoddard
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Hi, I need to determine the sum of the two sound waves and express it in the form y=Csin(kx-wt-"theta") where w is omega. The two waves are

y=Asin(kx-wt) where w is omega
y=Bsin(kx-wt-"phi") where w is omega

I used a trigometric formula and got it to the point where it equals

y=Asin(kx-wt)+B[sin(kx-wt)cos(phi)-cos(kx-wt)sin(phi)] and I have simplified a little but I cannot get it into the form stated above where y=Csin(kx-wt-theta) Any suggestions?

As well the question states C depends on A,B and phi, and Theta depends on A, B, and phi as well.

Thanks for your time
M Goddard
 
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Hint: Use complex numbers
 

Thread 'Greatest possible value of a constant in polynomial'

Since ##px^9+q## is the factor, then ##x^9=\frac{-q}{p}## will be one of the roots. Let ##f(x)=27x^{18}+bx^9+70##, then: $$27\left(\frac{-q}{p}\right)^2+b\left(\frac{-q}{p}\right)+70=0$$ $$b=27 \frac{q}{p}+70 \frac{p}{q}$$ $$b=\frac{27q^2+70p^2}{pq}$$ From this expression, it looks like there is no greatest value of ##b## because increasing the value of ##p## and ##q## will also increase the value of ##b##. How to find the greatest value of ##b##? Thanks
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