Magnetic Field Generated by a Finite, Current-Carrying Wire
A steady current I is flowing through a straight wire of finite length. Find B1, the magnitude of the magnetic field generated by this wire at a point P located adistancex from the center of the wire. Assume that at P the angle subtended from the midpoint of the wire to each end is θ as shown in the diagram.
Homework Answers
Magnetic Field
![](http://session.masteringphysics.com/render?var=theta_m" align="middle" /> as shown in the diagram<a onmouseover="MM_swapImage('imgflip_id3607825','','/assets/images/img_on.gif)
Find , the magnitude of the magnetic field generated bythiswire at a point P located a distance from the center of thewire. Assume that at P the angle subtendedfrom the midpoint of the wire to each end is as shown in the diagram.Express your answer in terms of,,, and .Now find , the magnetic field generated by this wireat a point Plocated a distance from either end of the wire.Assume that at P the angle subtendedfrom the end of the...
1. Magnetic Field Generated by a Current in a Wire Under steady-state conditions, a magnetic fiel...
1. Magnetic Field Generated by a Current in a Wire Under steady-state conditions, a magnetic field B has curlB in a region where there is no current. We study the steady-state magnetic field B due to a constant current in an infinitely long straight thin wire. The magnitude of the magnetic field at a point depends only on the distance from the wire and its direction is tangent to the circle around the wire and determined by the right-hand rule....
13. In each of the following situations current-carrying wire is placed in a magnetic field as...
13. In each of the following situations current-carrying wire is placed in a magnetic field as shown. Determine the direction of the requested quantity. (a) (1 pt) In diagram (a), the wire has a current flowing to the left and the magnetic field is represented by the circles. What is the direction of the force on the wire due to the magnetic field? No direction Value is Zero (b) (1 pt) In diagram (b), the wire has a current flowing...
Consider the current-carrying wire shown in the figure. The current creates a magnetic field at the...
Consider the current-carrying wire shown in the figure. The current creates a magnetic field at the point P, which is the center of the arc segment of the wire. If 0 = 20.0°, the radius of the arc is 0.700 m, and the current is 2.00 A, what are the magnitude (in nT) and direction of the field produced at P? P i magnitude 285.7 Apply the Biot-Savart law. What will be the contributions of the segments of wire along...
2. A steady, uniform magnetic field B with unknown magnitude and direction exists through- the shaded rectangular r...
2. A steady, uniform magnetic field B with unknown magnitude and direction exists through- the shaded rectangular region shown here (diagrams are not to scale). This region is planar-entirely in the x-y plane (+x is east and +y is north). The region's width (from its west edge to its east edge) is a known distance D. The region's length (from its north edge to its south edge) is 10D. Consider the following experiments, all performed with this field. coonfinate atan...
2. A steady, uniform magnetic field B with unknown magnitude and direction exists through out the shaded rectangular re...
2. A steady, uniform magnetic field B with unknown magnitude and direction exists through out the shaded rectangular region shown here (diagrams are not to scale). This region is planar-entirely in the x-y plane (+x is east and +y is north). The region's width (from its west edge to its east edge) is a known distance D. The region's length (from its north edge to its south edge) is 10D. Consider the following experiments, all performed with this field. Experiment...
2. A steady, uniform magnetic field B with unknown magnitude and direction exists throughR out the shaded rectangula...
2. A steady, uniform magnetic field B with unknown magnitude and direction exists throughR out the shaded rectangular region shown here (diagrams are not to scale). This region is planar-entirely in the r-y plane (+x is east and +y is north). The region's width (from its west edge to its east edge) is a known distance D. The region's length (from its north edge to its south edge) is 10D. Consider the following experiments, all performed with this field. Experiment...
Derive an expression for the magnetic field produced at point P due to the current-carrying wire...
Derive an expression for the magnetic field produced at point P due to the current-carrying wire shown in the figure below. The curved parts of the wire are pieces of concentric circles. Point P is at their center. (Use the following as necessary: 1, R1, R2, θ, and O. Assume that the +x axis is to the right, the +y axis is up along the page, and the +z axis is out of the page.) μο Need Help?Read It
A long wire is bent to form a 90 degree angle using a circular arc with...
A long wire is bent to form a 90 degree angle using a circular
arc with a radius r=2cm. The wire carries a current I=0.5A as
shown. Point P is located in the plane of the wire at the center of
the circular arc.
2. A long wire is bent to form a 90° angle using a circular arc with a radius R 2 cm. The wire carries a current I = 0.5 A as shown. Point P is located...
1. Magnetic Field Generated by a Current in a Wire Under steady-state conditions, a magnetic field B has curlB in a region where there is no current. We study the steady-state magnetic field B due to a constant current in an infinitely long straight thin wire. The magnitude of the magnetic field at a point depends only on the distance from the wire and its direction is tangent to the circle around the wire and determined by the right-hand rule....
13. In each of the following situations current-carrying wire is placed in a magnetic field as shown. Determine the direction of the requested quantity. (a) (1 pt) In diagram (a), the wire has a current flowing to the left and the magnetic field is represented by the circles. What is the direction of the force on the wire due to the magnetic field? No direction Value is Zero (b) (1 pt) In diagram (b), the wire has a current flowing...
Consider the current-carrying wire shown in the figure. The current creates a magnetic field at the point P, which is the center of the arc segment of the wire. If 0 = 20.0°, the radius of the arc is 0.700 m, and the current is 2.00 A, what are the magnitude (in nT) and direction of the field produced at P? P i magnitude 285.7 Apply the Biot-Savart law. What will be the contributions of the segments of wire along...
2. A steady, uniform magnetic field B with unknown magnitude and direction exists through- the shaded rectangular region shown here (diagrams are not to scale). This region is planar-entirely in the x-y plane (+x is east and +y is north). The region's width (from its west edge to its east edge) is a known distance D. The region's length (from its north edge to its south edge) is 10D. Consider the following experiments, all performed with this field. coonfinate atan...
2. A steady, uniform magnetic field B with unknown magnitude and direction exists through out the shaded rectangular region shown here (diagrams are not to scale). This region is planar-entirely in the x-y plane (+x is east and +y is north). The region's width (from its west edge to its east edge) is a known distance D. The region's length (from its north edge to its south edge) is 10D. Consider the following experiments, all performed with this field. Experiment...
2. A steady, uniform magnetic field B with unknown magnitude and direction exists throughR out the shaded rectangular region shown here (diagrams are not to scale). This region is planar-entirely in the r-y plane (+x is east and +y is north). The region's width (from its west edge to its east edge) is a known distance D. The region's length (from its north edge to its south edge) is 10D. Consider the following experiments, all performed with this field. Experiment...
Derive an expression for the magnetic field produced at point P due to the current-carrying wire shown in the figure below. The curved parts of the wire are pieces of concentric circles. Point P is at their center. (Use the following as necessary: 1, R1, R2, θ, and O. Assume that the +x axis is to the right, the +y axis is up along the page, and the +z axis is out of the page.) μο Need Help?Read It
A long wire is bent to form a 90 degree angle using a circular
arc with a radius r=2cm. The wire carries a current I=0.5A as
shown. Point P is located in the plane of the wire at the center of
the circular arc.
2. A long wire is bent to form a 90° angle using a circular arc with a radius R 2 cm. The wire carries a current I = 0.5 A as shown. Point P is located...
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