4. In a two-dimensional flow, when the flow velocity is given by the following equation, find...

4. In a two-dimensional flow, when the flow velocity is given by the following equation, find...

4. In a two-dimensional flow, when the flow velocity is given by the following equation, find the streamline equation of this flow. Explain the solution to a highschool level student u=kx, v=-ky

A two-dimensional unsteady flow has the velocity components given by u = x / (1 +...

A two-dimensional unsteady flow has the velocity components given by u = x / (1 + t) and v = y / (1 + 2t) Find the equation of the streamlines of this flow which pass through the point (xo, yo) at time t = 0.

Given the steady, two-dimensional velocity field and the derived equation of the streamline, recreate the streamlines...

Given the steady, two-dimensional velocity field and the derived equation of the streamline, recreate the streamlines shown in the plot using MATLAB. (Submit the plot and M-file script.) V = ui+vj = (0.5+0.8x)i+ (1.5−0.8y)j m/s y = 1.875+ ((c)/(0.8(0.5+0.8x))) Analysis: The MATLAB commands plot and quiver may be useful. Change the constant c to create a new streamline. Please use Matlab

A flow in the x – y plane is given by the following velocity field: u=5...

A flow in the x – y plane is given by the following velocity field: u=5 and v=10m m/s 0<t<20s and u=-5 and v=0 m/s 20<t<40s Paint is released at the starting point. (x,y,t)=(0,0,0) (A) For two particles released from one at t=0 s and the other at t=20 s, road lines at t = 30 draw for. (B) Draw flow lines at t=10 s and t=30 s on the same graph.

A steady, two-dimensional velocity field is given by V with rightwards arrow on top=(u,v)=(3.69-0.7x)i with rightwards...

A steady, two-dimensional velocity field is given by V with rightwards arrow on top=(u,v)=(3.69-0.7x)i with rightwards arrow on top+(2.16+3.06y)j with rightwards arrow on top where the x- and y-coordinates are in meters and the magnitude of velocity is in m/s. The volumetric strain rate in s−1 is A bird is flying in a room with a velocity field of (u, v, w)=0.58x+0.22t–1.22 (m/s). The room is heated by a heat pump so that the temperature distribution at steady state is...

The state of a particle is completely described by its wave function Ψ(?,?) One-dimensional Schrodinger Equation--...

The state of a particle is completely described by its wave function Ψ(?,?) One-dimensional Schrodinger Equation-- answer the following questions: 2) Show that when U(x) = 0, and , is a solution to the one-?=2??/ℏΨ=?sin??dimensional Schrodinger equation. 3) Show that when U(x) = 0, and , is a solution to the one-?=2??/ℏΨ=?cos??dimensional Schrodinger equation. 4) Show that where A and B are constants is a solution to the Ψ=??+?Schrodinger equation when U(x) = 0, and when E = 0.

The velocity field for a fluid, at two different times, is defined by the following equations...

The velocity field for a fluid, at two different times, is defined by the following equations (where u and v are the x- and y-components of the velocity vector): For time 0 s to 5 s; u = 1 m/s and v = 0 m/s For time 5 s to 10 s; u = 0.5 m/s and v = 0.75 m/s Plot the pathline for a particle from the time it is released in the flow (0 seconds) to 10...

1.)The velocity field of a flow is given by V=a(x2-y2)i-2axyj (a) Determine the convective acceleration in...

1.)The velocity field of a flow is given by V=a(x2-y2)i-2axyj (a) Determine the convective acceleration in the y direction. (b) Check if continuity equation is satisfied. (c)determine the vorticity. (d) Find the stream function.

Find an equation of the tangent plane to the surface given parametrically by x = u^2,...

Find an equation of the tangent plane to the surface given parametrically by x = u^2, y = v^2, z = u+4v at the point (1, 4, 9).

1.) The velocity field of a flow is given by V=2(-x+y)i+(3x2+2y)j (a) find the stream function....

1.) The velocity field of a flow is given by V=2(-x+y)i+(3x2+2y)j (a) find the stream function. (b) Determine the vorticity. (c)Find the velocity potential if possible.