accurate answer plz I1. Three wires are arranged at the cormers of an equilateral triangle with equal currents in the rections as shown. Draw the direction of the net force on wire 1 due to wires...
The figure shows three long, parallel, current-carrying wires. The current directions are indicated for currents I1 and I3. The three currents have equal magnitudes. In the space provided below write the direction of the currentI2 ( it could be INTO the page or OUT of the page, it is your choice!). Then, accordingly to your selection of I2 , write the direction of the net force acting on the wire I3 due to the presence of the other two wires....
Three parallel current-carrying wires are shown in the figure below. The currents in each wire are I1 = 0.460 A, I2 = 0.710 A, and I3 = 0.260 A. If the wires are separated by distances r1 = 0.185 m and r2 = 0.290 m, find the net magnetic force per unit length on the middle wire due to the other wires. (Express your answer in vector form.)
Three very long current carrying wires are placed at the corners of an equilateral triangle as shown below. Wire 1 and wire 2 are fixed at their locations well above the ground using some anchors. Wire 3 with linear mass density 40 g/m is being levitated magnetically above the ground due to the other two wires. (a) Find the direction of current in the wire 3 to achieve this. (b) Find the magnitude of the current in wire 3 (I3)...
3) Three long parallel conductors carry equal currents of I= 5 Amperes. The wires are separated by a neighboring wire from a distance of a = 20 cm. a a а i) Find the magnitude and direction of the magnetic field in the center of the equilateral triangle formed by the three wires. (10 pts) ii) Find the net force per unit length exerted on the bottom left wire due to the other two wires. (10 pts) iii) Find the...
The figure shows three long, parallel, current-carrying wires perpendicular to the page. In the picture, the current directions are indicated for I1 and I3. The three currents have equal magnitudes. The direction of the current I2 is INTO the page. Determine the direction of the net force acting on the wire I3 due to the presence of the other two wires. Group of answer choices left right Up down The figure shows three long, parallel, current-carrying wires perpendicular to the...
3) Three long wires (2 m long) are arranged in an equilateral triangle with a side length of 10 cm. The view is edge on (two wires coming out of the paper, one going in). Find: a) the net magnetic field vector at the center of the triangle, and b) the net force vector at point P (the midpoint of a side). 10 A
Four long straight parallel wires are oriented perpendicular to the x-y plane and carry currents I1, I2, I3 and I4. The magnitudes of the currents are all identical and equal to 4.015 A. Current I3 is into the x-y plane (i.e. into the screen), whereas each of the other three currents are all out of the x-y plane(i.e. out of the screen) as shown below. Each of the wires is a distance of 2.987 cm from the origin as measured...
5. Three current-carrying wires are perpendicular to the page and they form an equilateral triangle. Each wire is 1 m long. The distance between each of them is 4.0 cm and each wire carries a current of 10 A. Calculate the net force (magnitude and direction) on the upper wire due to the two lower wires. (Please show the diagram for force.) A 4.0 cm
force (magnitude and direction please) 9. Three wires are arranged in a delta configuration with 2m of separation and with 100 A of current in each wire all currents are in the same direction. Find the force, magnitude and direction, on wire 1 caused by 2 and 3. perunt length よ10.nv Lt 2 23
2. There are three wires carrying current. The direction of the currents for Wires 1 & 2 are as shown in the drawing to the right. The current in Wire 1, 11, is smaller than the current in Wire 2 (11 <12). At Point X, which is equidistant from all three wires, the magnetic field is zero. Wire 1 Wire 2 Wire 3 A) Determine the direction of the current in Wire 3 (13). Explain B) If Ti = 2A...