Which possible direction would the metal bar move so the lower end has a higher voltage than the higher end in an area of a uniform magnetic field in the -y direction which is not in the illustration.
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- I HAVE ATTCHED IMAGE WITH QUESTION!!! Two long parallel wires are 14 cm apart. What equal currents must be in the wires if the magnetic field halfway between them is to have a magnitude of 250 μT in the positive y direction (up in the figure)? Must the current be "parallel" or "antiparallel"?At a certain location, the Earth’s magnetic field has a magnitude of 5.4 * 10-5T and points in a direction that is 68° below thehorizontal. Find the magnitude of the magnetic flux through thetop of a desk at this location that measures 76 cm by 45 cm(L10) A solenoid contains 676 coils of very thin wire evenly wrapped over a length of 0.125 m. Each coil has a 4.40E-2 m radius. If this solenoid carries a current of 5.45 A, what is the magnetic field inside the solenoid (in T)?
- A wire carries an I, = 7.05-A current along the x-axis, and another wire carries an I, = 5.35-A current along the y-axis, as shown in the figure below. What is the magnetic field at point P, located at x = 4.00 m, y = 3.00 m? magnitude HT direction Select--- y (4.00, 3.00) mThe figure shows four different insulated cable sets intersecting at right angles to each other without making electrical contact. The magnitude of the current is the same for all wires and the flow directions of the current are as specified. State the configuration (if any) in which the magnetic field at the center of the squares formed by the wires is zero?(L10) In a lab at UTD, a straight vertical long wire carries a current of 5.25 A downward (pointing towards the floor). A uniform 0.488 T magnetic field is applied from the south to the north through the wire. What is the magnetic force on a 1.27 m section of the wire (in N; use positive sign if the force points eastward and negative sign if the force points westward)?
- A 348 turn square coil of sides 25 am is placed in the earth's magnetic field 0.34 G, such that its magnetic dipole momnent makes an angle 53 with the field as shown in the picture. If the current in the circular coil is 140 A, then calculate the following: C D a) The magnetic dipole moment of the coil in Am2 %3D b) The torque on the current loop measured in Nm = c) The potential energy of the current loop in joules %3DWhich of the following is true regarding the magnetic field magnitude at the center of a semi-circular current-carrying wire? The magnetic field is not affected by any of the factors mentioned in the other choices. If the current in the wire is doubled, the magnetic field will also be doubled. If the radius of the circle is doubled, the magnetic field will also be doubled. If the arc is reduced to a quarter of a circle, the magnetic field will be doubled.A 52 cm long solenoid, 2.8 cm in diameter, is to produce a 0.050 T magnetic field at its center. If the maximum current is 2.5 A, how many turns must the solenoid have?
- (L11) A thin 0.120 m copper rod on the x-y plane and parallel to the x axis moves with a constant velocity of 4.17 m/s in the +y direction as shown in the figure. There is a uniform magnetic field 5.84E-2 T everywhere in space pointing in the -z direction (into the page). The electric potential is measured to be Va at point a and V₁ at point b. What is the potential difference Va-V₁ (write down the sign and magnitude)? +y Va ZO Vb +xFor a current-carrying loop attached to a fixed axis in a uniform magnetic field, what is the phase angle between the magnetic flux through the loop and the magnetic torque acting on the loop? In other words, what is the angular difference between when flux is maximum and when torque is maximum?