Two long wires, 4cm apart, are parallel to each other. The wires have an equal amount of current I1=I2= 4A flowing through them. Points P and R are a distance a = 2.5 cm above the top wire and below the bottom wire respectively. Point Q is halfway between the two wires.
What is the net magnetic field strength at point P?
What is the net magnetic field strength at point R?
Two long wires, 4cm apart, are parallel to each other. The wires have an equal amount...
Two long wires, 4cm apart, are parallel to each other. The wires have an equal amount of current I1=I2= 20Aflowing through them. Points P and R are a distance a = 2.5 cm above the top wire and below the bottom wire respectively. Point Q is halfway between the two wires. What is the net magnetic field strength at points P, Q, and R? Q. 4 cm.
The figure below shows two long, parallel wires in cross-section, and the currents they carry are directed out of the page. The left wire carries a current ofI1 = 2.96 A,and the right carries a current ofI2 = 3.45 A.The two wires are a distanced = 20.0 cmapart. Point P is the same distance d above the right wire.Assume the +x-direction is to the right, and the +y-direction is upward.A cross-sectional end view of two parallel wires carrying current out...
Two long, straight wires carry equal currents of 0.56 A. The two wires are parallel to each other and carry parallel currents. What is the magnetic field at a midpoint between the two wires, if the wires are 0.5 cm apart? The magnetic field of a long, straight wire is: B=(μ_0 i)/2πr What is the force per unit length of one of the wires in number 2 on the other? Please show the derivation for the second equation used (u0*i1*i2/2pir)
Two long, parallel transmission lines, d = 40.0 cm apart, carry I1 = 25.0 A and I2 = 75.0 A. Don't do part A, only parts D-F. 2. Two long, parallel transmission lines, d = 40.0 cm apart, carry 11 = 25.0 A and 12 = 75.0 A. We are to find all locations where the net magnetic field due to the two wires is zero if these currents are in: i) the same direction and ii) the opposite direction....
Please show all work. 2. Two parallel transmission lines are 75cm apart and carry currents of 11 35A and I2 -15A. (a) (5 points) Draw the magnetic field around each wire. I2 (b) (10 points) At what distance, r, from the top wire is the net magnetic field of the two wires zero 1 35 A d75 cm 12 15 A
Two long, thin parallel wires are placed 12.0 cm apart, as shown below. Each wire carries a 28 A current, but the currents are flowing in opposite directions. Determine the magnetic field vector at the point P, which is 10.4 cm from one wire, and 6.0 cm from the other. Please help me find the magnitude and the direction (θ).
Two long straight wires are parallel and 11 cm apart. They are to carry equal currents such that the magnetic field at a point halfway between them has magnitude 440 �T. How much current (in A) is needed?
Two long, straight, parallel current-carrying wires are shown below. The wires are parallel to the (the +z-axis points out of the page). The current 3.2 A is flowing in the +2-direction (out of the page), while the current 12-3.2 A is flowing in the z-direction (into the page). The wire abov he origin passes through y- +3.0 cm, the wire below the origin passes through y- -3.0 cm, P is atx +4.0 cm. a) Find all thrce components of the...
Two long parallel wires are 3.2 cm apart from one another. the current in wire A is 5.8A, wire B is 7.2A borh into the page. find magnitude and direction of the magnetic field at a point halfway between A and B. include diagram of set up
Two long, straight wires are parallel and 8.5 cm apart. The top wire carries a current of 1.7 A, the bottom wire a current of 3.4 A. (a) If the two currents flow in the same direction, what is the magnitude and direction of the force per unit length of one wire on the other? (b) What is the magnitude and direction of the magnetic field ¼ of the distance between the two wires? You must draw a diagram, show...