For an imcomprresible fluid -y- direction velocity component on (x,y) plane given . İn this statement a and v constant.For the flow area of this fluid find the vortex vector of -z- direction component.? Note:X=0 for U(x,y)=0
For an imcomprresible fluid -y- direction velocity component on (x,y) plane given . İn this statement...
Velocity in xy-Plane position in the xy plane is given by the vector (ct 4dtt)i +(2ct? -d')j, where c and d are positive c FInd the expression for the x-component of the velocity (for time t > 0) when the in the z-direction. You should express your answer in terms of the variables c and d. Find the n for the y component of the velocity (for timet 0) when the particle is moving in the y-direction. D
The y component of velocity in a steady, incompressible flow field in the xy plane is v = -Bxy3, where B = 0.7 m-3 · s-1, and x and y are measured in meters. (a) Find the simplest x component of velocity for this flow field. (b) Find the equation of the streamlines for this flow (use C as constant).
Velocity in xy-Plane Part A particle's position in the xy- plane is given by the vector (er-2d+(e-d where c and d are positive constants. Find the expression for the x component of the velocity (for met 0) when the pertide is roving the r-direction. You should express your answer in terms of the variables c endd. First find the velocity vector and use this to determine the times when the particle is traveling in the x or y directions. Tries...
6.35 The x component of velocity in a two-dimensional incompressible flow field is given by uAx; the coordi nates are measured in meters and A 3.28 m There is no velocity component or variation in the z direction. Calculate the acceleration of a fluid particle at poin (x, y)- (0.3, 0.6). Estimate the radius of curvature of the streamline passing through this point. Plot the streamline and show both the velocity vector and the acceleration vector on the plot. (Assume...
Velocity in xy-Plane Part A A particle's position in the xy-plane is given by the vector (ct2 - 2dt3i(3ct2 - di3)j, where c and d are positive constants. Find the expression for the x- component of the velocity (for time t> 0) when the particle is moving in the x-direction. You should express your answer in terms of the variables c and d. D (2ct-6dt 2) First find the velocity vector and use this to determine the times when the...
An incompressible fluid flows horizontally in the x-y plane with a velocity given by , and , where and are in meters and is a constant. Determine the average velocity for the portion of the flow between and if m/s.
MIT Marine Hydrodynamics Spring 2005 Problem Set 5B Please solve these for me thanks ! :) 1. Supplementary Problem 12 2. A fluid jet issues from a long vertical slot and strikes against a vertical flat plate at an angle. The resulting two-dimensional steady flow in a horizontal plane is shown below. The plate is frictionless (a) If the volume flow rate of a vertical section of the jet before it strikes the plate is Q A, where A, is...
The x and y components of the velocity field of a three-dimensional incompressible flow are given by U = xv; V = -y-1 Find the expression for the z component of the velocity that vanishes at the origin.
In Exercises 25-28, a net is dipped in a river. Determine the flow rate of water across the net if the velocity vector field for the river is given by v and the net is described by the given equations. 28. v (zy, xz, xy), net given by y = I-x-z, for x, y, z ented in the positive y-direction 0 ori- In Exercises 25-28, a net is dipped in a river. Determine the flow rate of water across the...
Main 2 s and 2D Motion Velocity in xy-Plane о» e xy plane is given by the vector r-(cts_ 4dt*)i + (2ct2 dt3) erms of the variables c and d C j, where c and d are positive constants. Find t of the velocity (for time t > 0) when the particle is moving in the z-direction. You should express your answer in t vector and use this to d Tries 1/