We shall now look at the velocity field: v = v_xi + v_yj = xyi +...

Set up and solve the differential equation to find the flow r of an object that...

Set up and solve the differential equation to find the flow r of an object that is in a vector field F(r)=v=xi-yj, and had a starting position of (5,3). * F, r, v, i, and j should all have vector arrows above them

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.

Now, velocity, v = u + at x-axis → VxA = axAxt = VxA = 4.33...

Now, velocity, v = u + at x-axis → VxA = axAxt = VxA = 4.33 t → ① so, by y-axis → VyA = -2.5 t →② Position formula, s = ut + ½ at² by x-axis, xA = ½ × 4.33 t² → xA = 2.165t² →③ so, by y-axis, yA = -1.25 t² →④ Velocity → x-axis, VxB = 0 +0*t                               VxB = 0 →⑤ Velocity → y-axis, VyB = Uy - 10 t →⑥ Position →...

Logistic Equation The logistic differential equation y′=y(1−y) appears often in problems such as population modeling. (a)...

Logistic Equation The logistic differential equation y′=y(1−y) appears often in problems such as population modeling. (a) Graph the slope field of the differential equation between y= 0 and y= 1. Does the slope depend on t? (b) Suppose f is a solution to the initial value problem with f(0) = 1/2. Using the slope field, what can we say about fast→∞? What can we say about fast→−∞? (c) Verify that f(t) =11 +e−tis a solution to the initial value problem...

Can we use equation V=S/t to find instant velocity in every case? Explain your answer.

Can we use equation V=S/t to find instant velocity in every case? Explain your answer.

An electron moves in a circular orbit of radius 0.1 mm, counterclockwise as you look down...

An electron moves in a circular orbit of radius 0.1 mm, counterclockwise as you look down at it, moving in a plane above and parallel to the plane of your exam paper. The velocity of the electron is v =3 × 106 m/s. a) Find the potential due the electron at the center of the circle. b) Find the electric field due the electron at the center of the circle. c) Find the magnetic field due to the electron at...

This problem set will look at why the magnetic balls rolled slowly down the metal surfaces...This...

This problem set will look at why the magnetic balls rolled slowly down the metal surfaces...This scenario is slightly different, but makes the math easier! A square loop is cut out of a thick sheet of aluminum. It is then placed so that the top half is in a uniform magnetic field B (say 1T), and allowed to fall under gravity. (The first part of this problem requires you to set up dimensions.)   If the magnetic field is B, what...

In a vacuum diode electrons are emitted from a hot grounded cathode (V=0) and they are...

In a vacuum diode electrons are emitted from a hot grounded cathode (V=0) and they are accelerated towards the anode at potential V0 (see Griffiths, prob.2.48). The clouds of emitted electrons build up until they reduce the electric field at the cathode to zero. From then on a steady current I flows between the plates. Let the anode and cathode be much larger than the distance d between them, so that the potential ϕ, electron density ρ and electron velocity...

A particle of mass m is projected with an initial velocity v0 in a direction making...

A particle of mass m is projected with an initial velocity v0 in a direction making an angle α with the horizontal level ground as shown in the figure. The motion of the particle occurs under a uniform gravitational field g pointing downward. (a) Write down the Lagrangian of the system by using the Cartesian coordinates (x, y). (b) Is there any cyclic coordinate(s). If so, interpret it (them) physically. (c) Find the Euler-Lagrange equations. Find at least one constant...

Constants In (Figure 1), a beam of protons moves through a uniform magnetic field with magnitude...

Constants In (Figure 1), a beam of protons moves through a uniform magnetic field with magnitude 2.0 T , directed along the positive z axis. The protons have a velocity of magnitude 3.0×105 m/s in the x-z plane at an angle of 30 ∘ to the positive z axis. Find the force on a proton. The charge of the proton is q=+1.6×10−19C. SOLUTION SET UP We use the right-hand rule to find the direction of the force. The force acts...