A two–dimensional potential–flow solution for flow past an airfoil has the streamline pattern shown. Which additional condition is required to satisfy the Kutta condition?
\begin{center}
\includegraphics[width=0.5\textwidth]{03.jpeg}
\end{center}
Show Hint
- Addition of a source of strength \(Q>0\)
- Addition of a source of strength \(Q<0\)
- Addition of a circulation of strength \(\Gamma>0\) (counter–clockwise)
- Addition of a circulation of strength \(\Gamma<0\) (clockwise)
The Correct Option is C
Solution and Explanation
Step 1: What the Kutta condition demands.
For a sharp–edged airfoil in inviscid potential flow, the Kutta condition requires that the flow leaves the trailing edge smoothly, i.e. the velocity there is finite and the rear stagnation point sits at the trailing edge.
Step 2: How to enforce it in potential flow.
Potential–flow models are built by superposing elementary solutions. Uniform flow (plus a doublet) alone around a lifting shape produces infinite speed at the trailing edge. To make the rear stagnation point coincide with the trailing edge and keep the velocity finite, we must add a circulation \(\Gamma\) about the airfoil.
Step 3: Direction (sign) of circulation.
With the conventional left–to–right free stream and the depicted streamline pattern (higher speed over the upper surface producing upward lift), the necessary circulation is counter–clockwise, i.e. \(\Gamma>0\). This superposes a velocity that augments the upper–surface speed and reduces the lower–surface speed, moving the stagnation point to the trailing edge, thereby satisfying Kutta.
Step 4: Eliminate other options.
Sources/sinks (A,B) change mass flux and cannot by themselves regularize the trailing–edge singularity. A clockwise circulation (D) would shift the stagnation point the wrong way for the shown pattern.
Final Answer:
\[
\boxed{\text{Add a counter–clockwise circulation of strength }\Gamma>0.}
\]
Top GATE AE Aerodynamics Questions
The lift per unit span for a spinning circular cylinder in a potential flow is 6 N/m. The free-stream velocity is 30 m/s, and the density of air is 1.225 kg/m\(^3\). The circulation around the cylinder is __________ m\(^2\)/s (rounded off to two decimal places).
In a centrifugal compressor, the eye tip diameter is 10 cm. For a shaft rotational speed of 490 rotations per second, the tangential speed at the inducer tip is _________ m/s (rounded off to one decimal place).
- A lifting surface has a spanwise circulation distribution of \( \Gamma(\theta) = A \sin 3\theta \) (where \( A \neq 0 \)) over its span \( -\frac{b}{2} \leq y \leq \frac{b}{2} \), and \( y = -\frac{b}{2} \cos \theta \) is the spanwise coordinate. Furthermore, the downwash varies along the span as \( w(\theta) = V_\infty \left( \frac{3A \sin 3\theta}{\sin \theta} \right) \), where \( V_\infty \) is the freestream velocity. Which one of the following options represents the total lift \( L \) and induced drag \( D_i \)?
- A general aviation airplane is gliding with a speed \( V_g \) at minimum glide angle. Which of the following statements is/are true?
An aircraft is flying at an altitude of 4500 m above sea level, where the ambient pressure, temperature, and density are 57 kPa, 259 K, and 0.777 kg/m\(^3\), respectively. The speed of the aircraft \( V \) is 230 m/s. Gas constant \( R = 287 \, {J/kg/K} \), and specific heat ratio \( \gamma = 1.4 \). If the stagnation pressure is \( p_0 \), and static pressure is \( p \), the value of \[ \frac{p_0 - p}{\frac{1}{2} \rho V^2} \] is __________ (rounded off to two decimal places).
Top GATE AE Lift and Circulation Questions
The lift per unit span for a spinning circular cylinder in a potential flow is 6 N/m. The free-stream velocity is 30 m/s, and the density of air is 1.225 kg/m\(^3\). The circulation around the cylinder is __________ m\(^2\)/s (rounded off to two decimal places).
- A lifting surface has a spanwise circulation distribution of \( \Gamma(\theta) = A \sin 3\theta \) (where \( A \neq 0 \)) over its span \( -\frac{b}{2} \leq y \leq \frac{b}{2} \), and \( y = -\frac{b}{2} \cos \theta \) is the spanwise coordinate. Furthermore, the downwash varies along the span as \( w(\theta) = V_\infty \left( \frac{3A \sin 3\theta}{\sin \theta} \right) \), where \( V_\infty \) is the freestream velocity. Which one of the following options represents the total lift \( L \) and induced drag \( D_i \)?
- A general aviation airplane is gliding with a speed \( V_g \) at minimum glide angle. Which of the following statements is/are true?
- The lift per unit span for a spinning circular cylinder in a potential flow is 6 N/m. The free-stream velocity is 30 m/s, and the density of air is 1.225 kg/m\(^3\). The circulation around the cylinder is \_\_\_\_ m\(^2\)/s (rounded off to two decimal places).
- A lifting surface has a spanwise circulation distribution of \( \Gamma(\theta) = A \sin 3\theta \) (where \( A \neq 0 \)) over its span \( -\frac{b}{2} \leq y \leq \frac{b}{2} \), and \( y = -\frac{b}{2} \cos \theta \) is the spanwise coordinate. Furthermore, the downwash varies along the span as \( w(\theta) = V_\infty \left( \frac{3A \sin 3\theta}{\sin \theta} \right) \), where \( V_\infty \) is the freestream velocity. Which one of the following options represents the total lift \( L \) and induced drag \( D_i \)?
Top GATE AE Questions
Courage : Bravery :: Yearning :
Select the most appropriate option to complete the analogy.We __________ tennis in the lawn when it suddenly started to rain.
Select the most appropriate option to complete the above sentence.A 4 × 4 digital image has pixel intensities (U) as shown in the figure. The number of pixels with \( U \leq 4 \) is:
In the given figure, the numbers associated with the rectangle, triangle, and ellipse are 1, 2, and 3, respectively. Which one among the given options is the most appropriate combination of \( P \), \( Q \), and \( R \)?
A rectangle has a length \(L\) and a width \(W\), where \(L>W\). If the width, \(W\), is increased by 10%, which one of the following statements is correct for all values of \(L\) and \(W\)?
Select the most appropriate option to complete the above sentence.