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.

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.

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.

Find an equation of the tangent plane to the given parametric surface at the specified point....

Find an equation of the tangent plane to the given parametric surface at the specified point. x = u + v, y = 6u^2, z = u − v; (2, 6, 0)

The velocity function of a particle is given by v(t) = 3t2 – 24t + 36....

The velocity function of a particle is given by v(t) = 3t2 – 24t + 36. a) Find the equation for a(t), the acceleration. b) If s(1) = 50, find the displacement function s(t). c) When will the velocity be zero? d) Find the distance the particle travels on [0, 4].