Answer:
The ratio of initial to final speed of sound is given as 1.28.
Explanation:
As per the thermodynamic relation of isentropic expansion
[tex]\frac{T_2}{T_1}=(\frac{P_2}{P_1})^{\frac{k-1}{k}}[/tex]
Here
Substituting values in the equation
[tex]\frac{T_2}{350}=(\frac{0.4}{2.2})^{\frac{1.4-1}{1.4}}\\\frac{T_2}{350}=(0.18)^{0.2857}\\T_2=(0.18)^{0.2857} \times 350 \\T_2=0.61266 \times 350\\T_2=214.43 K[/tex]
As speed of sound c is given as
[tex]c=\sqrt{kRT}[/tex]
for initial to final values it is given as
[tex]\frac{c_i}{c_f}=\frac{\sqrt{k_1R_1T_1}}{\sqrt{k_2R_2T_2}}[/tex]
As values of k and R is constant so the ratio is given as
[tex]\frac{c_i}{c_f}=\sqrt{\frac{T_1}{T_2}}[/tex]
Substituting values give
[tex]\frac{c_i}{c_f}=\sqrt{\frac{350}{214.43}}\\\frac{c_i}{c_f}=\sqrt{1.63}}\\\frac{c_i}{c_f}=1.277 \approx 1.28[/tex]
So the ratio of initial to final speed of sound is 1.28.
