A straight current-carrying wire 25 cm long is ori- ented at right angles to a uniform...

A long straight wire carries a current of 5.00 A along the x axis in the...

A long straight wire carries a current of 5.00 A along the x axis in the positive x direction. In addition to the magnetic field produced by the current carrying wire, there is a uniform magnetic field B0 = (2.90 ✕ 10−6 T k). Determine the total magnetic field (in VECTOR NOTATION) at the following points in the yz plane. (a) Point 1: y = 0.200 m, z = 0 (b) Point 2: y = 0, z = 0.200 m...

A long straight wire parallel to the y axis carries a current of 3.8A in the...

A long straight wire parallel to the y axis carries a current of 3.8A in the positive y direction. There is a uniform magnetic field B = 0.7T along x - axis . The force per unit on the wire is ?

A piece of wire 0.40 m long is aligned at right angles to a constant, uniform...

A piece of wire 0.40 m long is aligned at right angles to a constant, uniform magnetic field. When the wire carries a current of 5.0 A, it experiences a magnetic force of 0.80 N. What is the strength of the magnetic field?

A long, straight wire carrying a current I1 is placed on a horizontal table in front...

A long, straight wire carrying a current I1 is placed on a horizontal table in front of you and the direction of the current points +x axis. The magnetic field produced by the current I1 at a point 5 cm above the wire is 0.2 T. A second parallel wire carrying a current I2 = 3I1 is placed 10 cm above the first wire and the direction of the current also points +x axis. What is the direction of the...

1. A straight current-carrying wire in a uniform magnetic field experiences a magnetic force a only...

1. A straight current-carrying wire in a uniform magnetic field experiences a magnetic force a only if the wire is moving. b only if the wire is parallel to the field. c parallel to the wire. d perpendicular to the wire. 2. Magnetic field strength is greater a where the field lines are closer together. b where the field lines are further apart. c where the field lines are evenly spaced. d where the field lines cross. 3. A moving,...

13. A current carrying wire sits inside a magnetic field. The 5 meter wire carries a...

13. A current carrying wire sits inside a magnetic field. The 5 meter wire carries a conventional current of 3 amps along the +z-direction (toward the sky) and experiences a force of 10 newtons along the y-direction (toward the South). What are the x-,y-, and z-components of the magnetic field? Use a diagram to show your answer.

A current-carrying wire is in the shape of a square of edge length 5.0 cm. The...

A current-carrying wire is in the shape of a square of edge length 5.0 cm. The square lies in the z = 0 plane. The wire carries a current of 2.1 A. (a) What is the magnitude of the torque on the wire if there is a uniform magnetic field of magnitude 0.28 T in the +z direction? (b) What is the magnitude of the torque if the field is in the +x direction?

The current in a wire is directed along the y-axis in a uniform magnetic field. The...

The current in a wire is directed along the y-axis in a uniform magnetic field. The resulting force on the wire is directed along the negative z-axis. The magnetic field is directed along the +x axis +y axis -x axis -y axis None of the above.

Two long, straight, current carrying wires are situated in a traditional x-y-z coordinate system, where distances...

Two long, straight, current carrying wires are situated in a traditional x-y-z coordinate system, where distances are in meters. Wire 1 lies along the z-axis and carries a current in the positive z-direction of ?1 = 4.00 ?. Wire 2 is parallel to wire 1, passing through the point (3, 3, 0), and carrying a current in the negative z-direction of ?2 = 3.00 ?. Determine the magnetic field at the point (2, 1, 0) in unit-vector notation.

A wire 70.0 mm long is bent in a right angle such that the wire starts...

A wire 70.0 mm long is bent in a right angle such that the wire starts at the origin and goes in a straight line to x = 30.0 mm , y = 0, and then in another straight line from x = 30.0 mm , y = 0 to x = 30.0 mm , y = 40.0 mm . The wire is in an external uniform 0.700-T magnetic field in the +z direction, and the current through the wire...