Solved Question 1 Part A Magnetic Force Between Two Wires Chegg Za part b: magnetic force in non uniform field consider a wire (figure 2) that carries a current i = 6 a in the positive direction of the x axis and lying in a non uniform magnetic field given by b = (2xây 2x2), where the constant 2 has units of t m, b in teslas and x in meters. Figure \(\pageindex{1}\): two parallel current carrying wires will exert an attractive force on each other, if their currents are in the same direction. the first wire will create a magnetic field, \(\vec b {1}\), in the shape of circles concentric with the wire.
The Magnetic Force Between Two Parallel Conductors 22 Two Parallel 20 conceptual questions and answers related to the magnetic force between two parallel wires: 1. question: what is the primary cause of the magnetic force between two parallel current carrying wires?. Describe the effects of the magnetic force between two conductors. calculate the force between two parallel conductors. Physics ninja looks at the interaction between several current carrying wires. the magnetic force is calculated on the top wire due to the magnetic fields. Wire 1 experiences a magnetic force f1 in the presence of b2. note that f1 is downward (attractive). f2 on wire 2 is equal to and opposite to f1. parallel wires carrying currents in the same direction attract each other. parallel wires carrying currents in opposite directions repel each other.
Magnetic Force Between Two Wires Carrying Current Collection Of Physics ninja looks at the interaction between several current carrying wires. the magnetic force is calculated on the top wire due to the magnetic fields. Wire 1 experiences a magnetic force f1 in the presence of b2. note that f1 is downward (attractive). f2 on wire 2 is equal to and opposite to f1. parallel wires carrying currents in the same direction attract each other. parallel wires carrying currents in opposite directions repel each other. Once the magnetic field has been calculated, the magnetic force expression can be used to calculate the force. the direction is obtained from the right hand rule. note that two wires carrying current in the same direction attract each other, and they repel if the currents are opposite in direction. First, we need to find the direction of the magnetic field created by wire 1 at the location of wire 2. we can use the right hand rule for this. point your thumb in the direction of the current in wire 1 (i1) and curl your fingers. the direction of your fingers represents the direction of the magnetic field. To find the force exerted on the bottom wire, we must first determine the direction of the magnetic field produced by the top wire, which we can do by using right hand rule number 1. we can then apply right hand rule number 2 to find the force produced by this field on the bottom wire. The force between two long straight and parallel conductors separated by a distance r can be found by applying what we have developed in preceding sections. figure 1 shows the wires, their currents, the fields they create, and the subsequent forces they exert on one another.