Respuesta :
Answer:
The amplitude of the wave in air [tex]A_{a}[/tex] will be 57.2 times to the amplitude of the wave in water [tex]A_{w}[/tex].
Explanation:
We know that the power carried by a wave (P) while propagating through a medium is given by
[tex]P = 2 \pi v \rho \nu^{2} A^{2}[/tex]
where 'v' is the velocity of the wave propagating through a medium, '[tex]\rho[/tex]' is the density of the medium, '[tex]\nu[/tex]' is the frequency of the wave and 'A' is the amplitude of the wave.
For air medium,
[tex]P_{a} = 2 \pi v_{a} \rho_{a} \nu^{2} A_{a}^{2}[/tex]
and for water medium,
[tex]P_{w} = 2 \pi v_{w} \rho_{w} \nu^{2} A_{w}^{2}[/tex]
According to the conservation of energy, we can equate the above two equations, as given the frequency of the wave remains constant. So,
[tex]&& v_{a} \rho_{a} A_{a}^{2} = v_{w} \rho_{w} A_{w}^{2}\\&or,& \dfrac{A_{a}}{A_{w}} = \sqrt{\frac{v_{w}\rho_{w}}{v_{a}\rho_{a}}}\\&or,& \dfrac{A_{a}}{A_{w}} = \sqrt{\dfrac{1410 \times 10^{2} cm s^{-1} \times 1 g cm^{-3}}{331 \times 10^{2} cm s^{-1} \times 1.3 \times 10^{-3} g cm^{-3}}} \approx 57.2\\&or,& A_{a} = 57.2 A_{w}[/tex]
