Suppose we have an infinitely long wire carrying a current of 1.7 A. It is bent...

An infinitely long wire carrying a current of 4.5 A is bent at the origin and...

An infinitely long wire carrying a current of 4.5 A is bent at the origin and extends in both the y-direction and x-direction. (In other words, the wire makes a 90 degree angle with the x axis and y axis and has a bend at the origin) Find the magnetic field at the point x = 3 cm and y = 2 cm

An infinitely long wire carrying a current of 4.5 A is bent at the origin and...

An infinitely long wire carrying a current of 4.5 A is bent at the origin and extends in both the y-direction and x-direction. (In other words, the wire makes a 90 degree angle with the x axis and y axis and has a bend at the origin) Find the magnetic field at the point x = 3 cm and y = 2 cm.

An infinitely long current carrying wire carries current I2. Imagine a wire carrying current I1 of...

An infinitely long current carrying wire carries current I2. Imagine a wire carrying current I1 of length L that can be oriented in space in anyway you choose. Describe how to orient it in a way that the magnetic force on the deformable wire is zero at every point.

A circular conductive loop of wire sits a centimeter away from a straight, infinitely-long current-carrying wire....

A circular conductive loop of wire sits a centimeter away from a straight, infinitely-long current-carrying wire. For each of the following scenarios, predict the outcome and explain how you made this prediction. (a)The loop sits stationary near the wire and does not move. The magnitude and direction of the current in the current-carrying wire does not change. Is there an induced magnetic field in the loop? (b)The loop begins to move toward the infinitely-long current-carryingwire. Is there an induced magnetic...

Find the magnetic field of an infinitely long-current carrying wire with current I = A cos(wt)...

Find the magnetic field of an infinitely long-current carrying wire with current I = A cos(wt) in the +x direction with w > 0 but small and constant and A > 0 constant.

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 wire bent in some arbitrary shape carries a current I. The wire is in a...

A wire bent in some arbitrary shape carries a current I. The wire is in a region with a uniform magnetic field . Show that the total force on the part of the wire from some arbitrary point on the wire (designated as a) to some other arbitrary point on the wire (designated as b) is   = I ✕ , where is the vector from point a to point b. In other words, show that the force on an arbitrary...

a. A 3 m long wire carrying a current of 1. 06 Ampere forms a 2-turn...

a. A 3 m long wire carrying a current of 1. 06 Ampere forms a 2-turn loop in the shape of an equilateral triangle. If the loop is placed in a constant uniform magnetic field with a magnitude of 0.734 T, determine the maximum torque that acts on it. b. Given an iron core solenoid with 16 turns of wire, 38 cm long and diameter of 99 cm. When 48A current flows in the wire, it was found that the...

. A long wire lies along the x -axis and carries a current in the positive...

. A long wire lies along the x -axis and carries a current in the positive x -direction with magnitude I x = 90 A. A second long wire lies along the y -axis and carries a current in the positive y -direction with magnitude I y = 45 A. A third wire lies along the z -axis and carries a current in the positive z -direction with magnitude I z = 50 A. Determine the magnitude of the net...

An infinitely long solid cylindrical cable (radius R, centered on the z-axis) carries a volume current...

An infinitely long solid cylindrical cable (radius R, centered on the z-axis) carries a volume current ?⃗ = (??^5) ?̂, The cable is surrounded by a concentric, infinitely long solenoid (radius 3R, n turns /m) carrying a current ?0. a. Find expressions for the magnetic field in all regions of space. b. Graph the field as a function of position along the x-axis. c. Find the force on a segment of wire from (x = 4R, y = 0, z...