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5. A constant current is in a long stranight wire in the plane of the paper...
The X in the center of the below image is showing the direction of the current in the wire (into page). In Part 1, use the direction of the compass needles and the right hand rule to determine whether the current in the wire is going up or down. When the direct current is 2.00 A in a single wire of the bundle of 10 wires, the total current in the bundle of wire that approximates the long straight wire...
1. Where a single straight long current carrying wire perpendicular to the plane of the page carries a current out of the page as shown, passing through the origin. The value of the current is I=30A. The magnetic field at the point (-3,0)m is directed a in the positive x-direction. b in the negative x-direction. c in the positive y-direction. d in the negative y-direction. e none of the above. X
A long wire carries a current in the direction shown above. The current I varies linearly with time t as follows: I=ct, where c is a positive constant. The long wire is in the same plane as a square loop of wire of side b, as shown in the diagram. The side of the loop nearest the long wire is parallel to it and a distance a from it. The loop has a resistance R and is fixed in space. a. Determine...
A very long straight wire carrying an electric current is perpendicular to the x-y plane. The current has a value of 31.1 A and is directed in the +z (out of the page). At point 'p', the magnetic field B is represented by one of the arrows. 1. Indicate the direction of the magnetic field at point 'p'. 2. Calculate the magnitude of the B-field at 'p'. 3. Calculate the y-component of the B-field at 'p'. :wire 1p :: ?...
An infinitely-long wire is in the same plane as a current loop. For the current and distance values shown: (a.) What is the magnitude of the net magnetic field at the center of the loop? (b.) What is the direction of the net magnetic field at the center of the loop?
A long straight wire is in the same plane as a rectangular, conducting loop. The wire carries a constant current I as shown in the figure. a) If the wire is suddenly moved toward the loop, in which direction will the induced current be? b) If the current in the wire is suddenly increased, in which direction will the induced current be? EXPLAIN your answers!
8. Imagine a long straight wire laid out along the x-axis in the xy-plane, and a current flowing through it in the positive x-direction. The direction of the magnetic field at the point (8,6)m in the xy-plane will be Group of answer choices a the positive y-direction. b the negative y-direction. c the positive z-direction. d the negative z-direction. e none of the above.
3. A long straight verticalement of wire B s straight vertical segment of wire traverses a magnetic field of magnitud 2 .0 T in the direction shown in the diagram. field is 0.060 m. When the switch is closed, a current of 1- e direction shown in the diagram. The length of the wire that lies in the magica 4.0 A flows through the wire, from m. When the switch is closed a current of Po to point P. Which...
A horizontal current-carrying wire that is perpendicular to the plane of the paper is placed in a uniform magnetic field of magnitude 3.0 mT that is parallel to the plane of the paper and points down. At the distance 1.0 cm to the right of the wire, the total magnetic field is zero. 1. What is the magnitude of the current in the wire if the zero field point is 0.4 cm to the left of the wire? Express your...
A very long straight wire carrying an electric current is perpendicular to the x-y plane. The current has a value of 31.5 A and is directed in the -z (into the page). At point 'p', the magnetic field B is represented by one of the arrows. Calculate the magnitude of the B-field at 'p'. Calculate the x-component of the B-field at 'p'. A very long straight wire carrying an electric current is perpendicular to the x-y plane. The current has a...