You have a loop placed some small distance above a horizontal current-carrying wire that is increasing...

A long, straight wire carrying 1.5 A of current to the left is placed above a...

A long, straight wire carrying 1.5 A of current to the left is placed above a large, flat sheet through which the current per unit width is 4.0 A/m to the left. Part A What is the magnitude of the magnetic force exerted on each 1.0-m length of the wire? FB/? = N/m   Part B What is the direction of the magnetic force? The magnetic force is downward. The magnetic force is directed to the right. The magnetic force is...

A rectangular conducting loop is placed near a wire. The plane if the loop lies in...

A rectangular conducting loop is placed near a wire. The plane if the loop lies in the x-y plane of the page. The wire is below the loop towards the bottom of the page and runs horizontally from left to right also in the plane of the page (the x-y plane) and carries current in the +x direction to the right. If the current in the wire decreases in time, what can be said of the current induced in the...

A horizontal current-carrying wire that is perpendicular to the plane of the paper is placed in...

A horizontal current-carrying wire that is perpendicular to the plane of the paper is placed in a uniform magnetic field of magnitude 2.8 mTmT that is parallel to the plane of the paper and points down. At the distance 1.0 cmcm to the right of the wire, the total magnetic field is zero. A. What is the direction of the current in the wire if the zero point is 0.4  to the left of the wire? Into the page. Out of...

A circular wire loop with a radius of 10 cm is placed in a magnetic field...

A circular wire loop with a radius of 10 cm is placed in a magnetic field of 1.0 T that is parallel to its axis into the page. The loop is stretched to half of its initial area within a time of 0.1 seconds. What is the induced voltage and the direction of induced current? (a) 157 mV, clockwise current (b) 120 mV, counter clockwise current (c) 79 mV, clockwise current (d) 0 V, no current The answer is A...

A circular wire loop 39 cm in diameter has resistance 120 Ω and lies in a...

A circular wire loop 39 cm in diameter has resistance 120 Ω and lies in a horizontal plane. A uniform magnetic field points vertically downward, and in 25 ms it increases linearly from 5.0 mT to 55 mT. Find the magnetic flux through the loop at the beginning. ( Φ1 = ? mWb ) Find the magnetic flux through the loop at the end of the 25-ms period. Φ2 = ? mWb What's the loop current during this time? Express...

A long horizontal wire carrying a current of 300A is held in place above another horizontal...

A long horizontal wire carrying a current of 300A is held in place above another horizontal wire with a current of 200A in the opposite direction. If the top wire is allowed to fall under gravity, determine the distance (in centimeters) from the fixed wire at which the acceleration of the top wire goes to zero. Assume that the top wire has a mass per unit length of 55 g/m.

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...

A loop of wire lies on the table. The north end of a magnet is moved...

A loop of wire lies on the table. The north end of a magnet is moved toward the loop from above. a) Draw a diagram of the situation. b) In which direction is the induced magnetic field? Explain your answer. i) Up ii) Down c) As viewed from above, in which direction is the induced current? Explain your answer. i) Counter-clockwise ii) Clockwise

You are looking down on a current-carrying loop, lying horizontally in a magnetic field that is...

You are looking down on a current-carrying loop, lying horizontally in a magnetic field that is also horizontal and pointing north. As seen from above, the current circulates clockwise. Magnetic torque on the loop will try to rotate the loop which way? a. North side upward, south side down. b. West side upward, east side down. c. South side upward, north side down. d. East side upward, west side down.

In a circular loop of wire lying on a horizontal floor, the current is constant and,...

In a circular loop of wire lying on a horizontal floor, the current is constant and, to a person looking downward on the coil, has a counterclockwise direction. What is the direction of the magnetic field at the center of the circle due to this current?