Data:-
Velocity in x-direction at y=0 is zero at y=1 m is 32 m/s.
To find:-
(i) $\psi=?$
(ii) Streamlines at $d\psi =3m^2/s$
(iii) Flow rotational or not.
Solution:-
Velocity component 'u' along x-direction at y distance may be written as
$\frac{32}{u}=\frac{1}{y}$
$\therefore u=32y$
As there is no velocity along y-direction
$\therefore v=0$
Stream function $\frac{\partial \psi}{\partial y}=u$ and $\frac{\partial \psi}{\partial x}=-v$
Let $\frac{\partial \psi}{\partial y}=u$
$\therefore \partial \psi=u.\partial y=32y.\partial y$
Integrating
$\psi=\frac{32y^2}{2}+f(u)$
$\psi=16y^2+f(x)$.................(1)
Differentiating equation (1) w.r.t. 'x'
$\frac{\partial \psi}{\partial x}=0+f'(x)$
But $\frac{\partial \psi}{\partial x}=-v=0$
$\therefore f'(x)=0$
integrating we get
$f(X)=0$
$\therefore$ equation (1) will becomes
$y=16y^2$..........(Ans)
-Considering unit width of flow
$\partial Q=\partial \psi \times 1$
Let $d\psi$ be the difference in $\psi$ at y=y and y=0
then $\partial \psi=\psi _y-\psi _0$
$\psi _0=0$...........at y=0 and
$\psi _y=16y^2$
$\psi _y=3m^2/s$
$\therefore 3=16y^2-0$
$\therefore y=0.433 m$
-The first streamline will at y=0 and parallel to x-axis
-The second streamline at y=0.4333 and parallel to x-axis.
-The third streamline may be obtained as $\partial \psi=\psi _y-\psi_{0.433}$
$\therefore 3=16y^2-16\times (0.433)^2$
$\therefore y=0.6125 m$
-Fourth streamline
$3=16y^2-16\times (0.6125)^2$
$\therefore=y=0.75 m$
-Fifth streamline
$3=16y^2-16\times (0.75)^2$
$y=0.866m$
-Sixth streamline
$3=16y^2-16\times (0.866)^2$
$y=0.968m$
-Seventh streamline
$3=16y^2-16\times (0.968)^2$
$y=1.061m$
and we can calculate $8^{th}$,$9^{th}$ etc.
(iii) To check whether flow is rotational or irrotational
We have,
$W_z=\frac{1}{2}[\frac{\partial v}{\partial x}-\frac{\partial u}{\partial y}]$
We know u=32y and v=0
$\frac{\partial u}{\partial y}=32$ and $\frac{\partial v}{\partial x}=0$
$w_t=\frac{1}{2}(0-32) \ne 0$
$\therefore$ Flow is not irrotational.
and 4 others joined a min ago.
teamques10
★ 68k