Answer:
Distance should be 5.62m
Explanation:
We know the sound to be heard louder needs constructive interference of waves and ;no sound require destructive interference !
I should be at a distance where destructive interference could take place !
a) yes of course if only one speaker is there then there will be no wave to destruct the on coming sound wave - hence it will be heard.
b) As clear from the figure if we don't want to hear sound then we should be at a point where destructive interference takes place.
The difference of distances '[tex]r^{2}[/tex]' and '[tex]r2^{2}[/tex]' is Δr
So, in the figure attached the Δr should be for destructive interference for no sound i-e
Δr =[tex]\frac{(2n+1)}{2}[/tex]λ
or simply it should be like Δr=λ/2
We know formula for wavelength is calculated by dividing speed with frequency i-e λ=v/f
and hence λ/2=v/2f
==> λ/2= 344/2×688
==>λ/2=1/4
but λ/2=Δr=[tex]r^{2} -r2^{2}[/tex]
==> 1/4=[tex]r^{2} -r2^{2}[/tex]
d= 5.26 m
