Cavity flow is generated when a plate is dragged at speed U over the top of a cavity (of height 8) filled with an incompressible liquid. As shown in the sketch below, the plate drags fluid to the right, which causes pressure to build up on the right side of the cavity. This high pressure (compared to the left end of the cavity) drives fluid to the left, resulting in a circulation of fluid within the cavity. Because the fluid is incompressible, the net volumetric flowrate within the cavity is zero. Plate a) b) c) J Using the Cartesian coordinate system shown in the sketch (with y = 0 at the bottom of the cavity), the flow profile near the lateral center is given by - U[³()*-- ()] <* -2 V e +0e, +0e. U dy = d.et Calculate the rate of strain tensor and vorticity vector for this flow field. For which y positions are there are no stretching motions? Are there rotational motions for all values of y? Find the position (not including the lower wall, y = 0) where y=0. Evaluate e and at this position. d) At the position determined in (c), analyze fluid stretching and rotational components, indicating the direction of stretch and rotation with sketches using (dx, dy) coordinates.

Elements Of Electromagnetics
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PART D Please!!

Cavity flow is generated when a plate is dragged at speed U over the top of a cavity (of height 8)
filled with an incompressible liquid. As shown in the sketch below, the plate drags fluid to the
right, which causes pressure to build up on the right side of the cavity. This high pressure
(compared to the left end of the cavity) drives fluid to the left, resulting in a circulation of fluid
within the cavity. Because the fluid is incompressible, the net volumetric flowrate within the
cavity is zero.
Plate
11 S
Using the Cartesian coordinate system shown in the sketch (with y = 0 at the bottom of the
cavity), the flow profile near the lateral center is given by
-r૧()-(૪)]<
ex +0e, +0e₂
a)
b)
c)
U
V
dy = dp • e + — — w x dp
Calculate the rate of strain tensor and vorticity vector for this flow field.
For which y positions are there are no stretching motions? Are there rotational
motions for all values of y?
Find the position (not including the lower wall, y = 0) where y=0. Evaluate e and
at this position.
d)
At the position determined in (c), analyze fluid stretching and rotational
components, indicating the direction of stretch and rotation with sketches using (dx,
dy) coordinates.
으
Transcribed Image Text:Cavity flow is generated when a plate is dragged at speed U over the top of a cavity (of height 8) filled with an incompressible liquid. As shown in the sketch below, the plate drags fluid to the right, which causes pressure to build up on the right side of the cavity. This high pressure (compared to the left end of the cavity) drives fluid to the left, resulting in a circulation of fluid within the cavity. Because the fluid is incompressible, the net volumetric flowrate within the cavity is zero. Plate 11 S Using the Cartesian coordinate system shown in the sketch (with y = 0 at the bottom of the cavity), the flow profile near the lateral center is given by -r૧()-(૪)]< ex +0e, +0e₂ a) b) c) U V dy = dp • e + — — w x dp Calculate the rate of strain tensor and vorticity vector for this flow field. For which y positions are there are no stretching motions? Are there rotational motions for all values of y? Find the position (not including the lower wall, y = 0) where y=0. Evaluate e and at this position. d) At the position determined in (c), analyze fluid stretching and rotational components, indicating the direction of stretch and rotation with sketches using (dx, dy) coordinates. 으
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