A 1.80 m segment of wire supplying current to the motor of a submerged submarine carries...

a)A very long, straight wire carries a current of 17.1 A out of the screen. An...

a)A very long, straight wire carries a current of 17.1 A out of the screen. An electron outside the wire is 1.29 cm to the right of the central axis of the wire and is moving with a speed of 4.45×106 m/s. Find the magnitude of the magnetic force on the electron if it is moving directly away from the wire (i.e., rightward). b) Find the magnitude of the force on the electron if it is moving parallel to the...

A very long, straight wire carries a current of 13.9 A out of the screen. An...

A very long, straight wire carries a current of 13.9 A out of the screen. An electron outside the wire is 1.17 cm to the right of the central axis of the wire and is moving with a speed of 4.25×106 m/s. a. Find the magnitude of the magnetic force on the electron if it is moving directly away from the wire (i.e., rightward). b. Find the magnitude of the force on the electron if it is moving parallel to...

A long straight horizontal wire carries a current I = 1.80 A to the left. A...

A long straight horizontal wire carries a current I = 1.80 A to the left. A positive 1.00 C charge moves to the right at a distance 5.00 m above the wire at constant speed v = 1250 m/s . (Figure 1) What are the magnitude and the direction of the magnetic force on the charge? What is the magnitude B of the magnetic field at the location of the charge due to the current-carrying wire? Express your answer in...

A very long, straight wire carries a current of 15.5 A out of the screen. An...

A very long, straight wire carries a current of 15.5 A out of the screen. An electron outside the wire is 1.13 cm to the right of the central axis of the wire and is moving with a speed of 5.45×106 m/s. Find the magnitude of the magnetic force on the electron if it is moving directly away from the wire (i.e., rightward). Tries 0/5 Find the magnitude of the force on the electron if it is moving parallel to...

A long straight horizontal wire carries a current I = 1.80 A to the left. A...

A long straight horizontal wire carries a current I = 1.80 A to the left. A positive 1.00 C charge moves to the right at a distance 5.00 m above the wire at constant speed v = 1250 m/s . (Figure 1) What are the magnitude and the direction of the magnetic force on the charge? If the charge were located a distance 10.0 m from the wire, how would the net magnetic force on the charge compare to that...

A long straight wire carries a current of 63.2 A. An electron, traveling at 2.45 ×...

A long straight wire carries a current of 63.2 A. An electron, traveling at 2.45 × 107 m/s, is 6.69 cm from the wire. What is the magnitude of the magnetic force on the electron if the electron velocity is directed (a) toward the wire, (b) parallel to the wire in the direction of the current, and (c) perpendicular to the two directions defined by (a) and (b)?

A very long, straight wire carries a current of 20.0 A in the +k direction. An...

A very long, straight wire carries a current of 20.0 A in the +k direction. An electron 0.8 cm from the center of the wire in the i direction is moving with a speed of 6.82 106 m/s. Find the force on the electron when it moves in the following directions. (a) directly away from the wire (b) parallel to the wire in the direction of the current (c) perpendicular to the wire and tangent to a circle around the...

Two long, straight, parallel wires carry current. The first wire carries I1 = 3 A to...

Two long, straight, parallel wires carry current. The first wire carries I1 = 3 A to the right and the second carries I2 = 5 A to the left. The force per length each wire exerts on the other is of magnitude 5 × 10−6 N/m. (a) Sketch the situation. On your sketch indicate the directions of the magnetic fields produced by each wire and the direction of the force exerted on each wire. Determine the distance between the wires....

A straight 25.0-g wire that is 1.80 m long carries a current of 6/30 A. This...

A straight 25.0-g wire that is 1.80 m long carries a current of 6/30 A. This wire is aligned horizontally along the west-east direction with the current going from west to east. You want to support the wire against gravity using the weakest possible uniform external magnetic field. (a) Which way should the magnetic field point? (b) What is the magnitude of the weakest possible magnetic field you could use? (please show all steps)

A long, straight wire carries a 13.0-A current. An electron is fired parallel to this wire...

A long, straight wire carries a 13.0-A current. An electron is fired parallel to this wire with a velocity of 240 km/s in the same direction as the current, 2.30 cm from the wire. Find the magnitude of the electron's initial acceleration. What should be the magnitude of a uniform electric field that will allow the electron to continue to travel parallel to the wire?