Refer to the figure below. A rectangular current loop, with dimensions a=5cm and b=4cm, is pivoted around the z-axis with an angle Φ=30o to the y-axis. The current I=2mA is directed by the red arrows as shown. Assume a magnetic field as shown in the figure, determine the torque
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Refer to the figure below. A rectangular current loop, with dimensions a=5cm and b=4cm, is pivoted around the z-axis with an angle Φ=30o to the y-axis. The current I=2mA is directed by the red arrows as shown. Assume a magnetic field as shown in the figure, determine the torque.
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- A rectangular current loop as shown in the figure has dimensions a = 0.18 m and b = 0.10 m. Current I = 1.20 A is flowing in the loop (as illustrated). The loop and the magnetic field lines ( = 0.45 T) are both in the plane of the figure. What is the magnitude of the torque acting on the current loop? |T|= If the current loop consists of 8 windings around the same rectangular dimensions, what is the magnitude of the total torque acting on the windings? Nm |T| In what direction does the torque vector point? NmThe figure below illustrates a cross section of 4 very long conductors carrying identical currents (11=I2=I3=I4). Initially all four wires are at a distance of d = 15 cm from the origin, point a, where they create a magnetic field Bnet: a) Sketch all B components and the resulting Bnet at the origin point a. b) Now we need to rotate Bnet by 30 degrees counterclockwise, which conductor (choose only one) should be moved along either the x or y axis? And by how much? I1 d d I4 I2 a id (X) I3 Related equations I |B| = Ho T; µo = 4t (10-7) Tm/A 2nd Directions of the above equations are determined using the right hand rule.The diagram below depicts a rectangular wire loop of width a = 17.5 cm and height b = 7.95 cm, that is connected to a current source that when turned on, gives rise to a current I = 0.35 A in the wire. The loop is suspended in a uniform magnetic field B = 0.85 T that points in a vertical direction as shown in the diagram, and it would hang vertically if there were no current in the wire. We assume that the wire is massless, but two masses m = 9 g are suspended at the lower corners. What is the angle, θ, at which the loop is in equilibrium?
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- Consider the following figure. a) A conducting loop in the shape of a square of edge length ℓ = 0.300 m carries a current I = 9.80 A as in the figure above. Calculate the magnitude and direction of the magnetic field at the center of the square. b) If this conductor is reshaped to form a circular loop and carries the same current, what is the value of the magnetic field at the center? Note: See image for the figure and original question.The figure below shows two long parallel, straight wires carrying currents, I1 = 56 A and I2 the magnetic field (in nT) at point A, which is at a distance of 8 m from wire #1? 154 A. The distance between the wires is 20 m. What is the magnitude of d. I2 (in units of nT or nanoteslas) Submit Answer Tries 0/2 Which direction does the magnetic field point at location A (due to both wires)?An electron at point A in the figure (Figure 1) has a speed v0v0 of 1.40×106 m/s. Find the magnitude of the magnetic field that will cause the electron to follow the semicircular path from A to B. Express your answer in teslas.
- An infinitely long wire carrying current, I, is bent in the middle so that the horizontal and vertical sections are connected by a circular arc with radius, R, as shown in the figure. Write a symbolic expression for the strength of the magnetic field produced at the center point, P, in terms of I, R, and constants (all as needed), and indicate its direction. B = into the page I D R IA thin conducting wire is bent into the shape shown in the figure. The circular portion of the wire has radius 28.0 cm. The wire is in the plane of the screen and carries a current 1.20 A. What is the magnetic field at the center of the loop? (Give the magnitude in µT and select the direction from the options provided.) magnitude ????? µT direction ---Select--- to the right to the left upwards downwards into the screen out of the screenThe figure below shows two very long straight wires (in cross section) that each carry a current of 4.55 A directly out of the page. Distance d₁ = 6.00 m and distance d₂ = 5.00 m. What is the magnitude of the net magnetic field at point P, which lies on a perpendicular bisector to the wires? Number 2.29e-7 Units T V H de P