A supersonic stream of an ideal gas at Mach number \( M_1 = 5 \) is turned by a ramp, as shown in the figure. The ramp angle is 20°. The pressure ratio is \( \frac{p_2}{p_1} = 7.125 \) and the specific heat ratio is \( \gamma = 1.4 \). The pressure coefficient on the ramp surface is \_\_\_\_\_\_\_\_ (rounded off to two decimal places).
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Solution and Explanation
\( M_1 = 5 \)
\( \theta = 20^\circ \)
\( \gamma = 1.4 \)
\( \frac{p_2}{p_1} = 7.125 \)
Using these values, we calculate the shock relations. Step 2: Pressure coefficient calculation.
The pressure coefficient \( C_p \) is given by the formula: \[ C_p = \frac{p_2 - p_1}{\frac{1}{2} \rho_1 V_1^2} \] Using the given pressure ratio and known values, we can substitute into the equation to find \( C_p \). After solving, we get: \[ C_p = 0.31 \] Thus, the pressure coefficient on the ramp surface is 0.31.
Top Questions on Shock
A supersonic stream of an ideal gas at Mach number \( M_1 = 5 \) is turned by a ramp, as shown in the figure. The ramp angle is 20°. The pressure ratio is \( \frac{p_2}{p_1} = 7.125 \) and the specific heat ratio is \( \gamma = 1.4 \). The pressure coefficient on the ramp surface is ___________ (rounded off to two decimal places).
- A supersonic stream of an ideal gas at Mach number \( M_1 = 5 \) is turned by a ramp, as shown in the figure. The ramp angle is 20°. The pressure ratio is \( \frac{p_2}{p_1} = 7.125 \) and the specific heat ratio is \( \gamma = 1.4 \). The pressure coefficient on the ramp surface is \_\_\_\_\_\_\_\_ (rounded off to two decimal places).
- A supersonic stream of an ideal gas at Mach number \( M_1 = 5 \) is turned by a ramp, as shown in the figure. The ramp angle is 20°. The pressure ratio is \( \frac{p_2}{p_1} = 7.125 \) and the specific heat ratio is \( \gamma = 1.4 \). The pressure coefficient on the ramp surface is \_\_\_\_\_\_\_\_ (rounded off to two decimal places).
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