Determine the stream function for a two-dimensional source of strength m. Sketch the resultant field of...

Determine the stream function for a two-dimensional source of strength m. Sketch the resultant field of...

Determine the stream function for a two-dimensional source of strength m. Sketch the resultant field of flow due to three such sources, each of strength m, located at the vertices of an equilateral triangle. Please include the drawing. Thanks!

The stream function for a given 2-D horizontal flow field is ψ = 4x^3 −12xy^2 ,...

The stream function for a given 2-D horizontal flow field is ψ = 4x^3 −12xy^2 , where the stream function has a unit of cubic meter per minute, while x and y in meters. a) Determine the flow velocity at two points in the flow field, A at (2, 0) and B at (0, 2). b) Estimate the rate of flow across the straight line between A and B. c) Show evidence that the flow is irrotational. d) Determine the...

The stream function for a given 2-D horizontal flow field is 3 2 ψ = 4x...

The stream function for a given 2-D horizontal flow field is 3 2 ψ = 4x −12xy , where the stream function has a unit of cubic meter per minute, while x and y in meters. a) Determine the flow velocity at two points in the flow field, A at (2, 0) and B at (0, 2). b) Estimate the rate of flow across the straight line between A and B. c) Show evidence that the flow is irrotational.

6-With a labelled sketch, illustrate the electric field and equipotential lines about a point charge. [2...

6-With a labelled sketch, illustrate the electric field and equipotential lines about a point charge. [2 marks] (b) A dipole, as illustrated in the following figure, consists of two charges of charge magnitude, q separated by a distance, d. Point P is separated from the dipole center by a distance, r along the x-axis. For this: i) sketch and label the electric field vector contributions at P due to the two point charges and the resultant net field vector at...

An electric field has an electric field strength 6000. N/C at a distance of 1.5 m....

An electric field has an electric field strength 6000. N/C at a distance of 1.5 m. What is the strength of the field at a distance of 6.0 m? 24. An alpha (α) particle is positioned in an electric field such that the gravitational force acting on it is equal to the electrostatic force.              (qα = 3.2 x 10–19 C and mα = 6.64 x 10–27 kg) a) What is the direction of the electric field at this point?...

(1)(A)Determine the electric field strength between two parallel conducting plates to see if it will exceed...

(1)(A)Determine the electric field strength between two parallel conducting plates to see if it will exceed the breakdown strength for air (3 ✕ 106 V/m).The plates are separated by 2.72 mm and a potential difference of 4840 V is applied? How close together can the plates be with this applied voltage without exceeding the breakdown strength? (B) FInd the total capacitance of the combination of capacitors (C1 = 0.310 µF, C2 = 22.5 µF.) (C)585 C passes through a flashlight...

1. Treacherous Triangle Trickery. Consider a charge distribution consisting of an equilateral triangle with a point...

1. Treacherous Triangle Trickery. Consider a charge distribution consisting of an equilateral triangle with a point charge q fixed at each of its vertices. Let d be the distance between the center of the triangle and each vertex, let the triangle’s center be at the origin, and let one of its vertices lie on the x-axis at the point x = −d. 1.1. Compute the electric field at the center of the triangle by explicitly computing the sum of the...

A source of sound is located at the center of two concentric spheres, parts of which...

A source of sound is located at the center of two concentric spheres, parts of which are shown in the drawing. The source emits sound uniformly in all directions. On the spheres are drawn three small patches that may or may not have equal areas. However, the same sound power passes through each patch. The source produces 2.1 W of sound power, and the radii of the concentric spheres are rA = 0.50 m and rB = 1.2 m.(a) Determine...

Stationary planets “A” and “B”, each with mass 1024 kg, are located 106 m away from...

Stationary planets “A” and “B”, each with mass 1024 kg, are located 106 m away from each other in the horizontal direction (x). Space capsule “C” with a mass of 1000 kg starts at rest 106 m from both “A” and “B”, so the three objects form an equilateral triangle. Assume that “A” and “B” have a fixed position and cannot move, while “C” is able to move freely. What is the net gravitational force vector on “C” at time...

10. A spherical conductor of radius R = 1.5cm carries the charge of 45μ, (a) What...

10. A spherical conductor of radius R = 1.5cm carries the charge of 45μ, (a) What is the charge density (ρ) of the sphere? (b) Calculate the electric field at a point r = 0.5cm from the center of the sphere. (c) What is the electric field on the surface of the sphere? 11. Two capacitors C1 and C2 are in series with a voltage V across the series combination. Show that the voltages V1 and V2 across C1 and...