Q3) Two infinitely long wires with currents i = 2 A and iz = 3 A are parallel to eachother, as shown in the figure. The separation between the two wires is d = 10 cm.6 comda) What are the magnitude and the direction of the force wire 1 exerts on 1 m of wire2?b) Calculate the magnitude and direction of the total magnetic field at point P due tothe wires.A charged particle with charge Q = 2 nC enters the space between the two wires.c) Find the total force acting on this particle at point P, assuming that the velocity ofthe particle at this point is given by v = (15î – 32k)™.

When current is carried by 2 parallel long wires, they exert force on each other. This force per…

Answered: Q3) Two infinitely long wires with…

Similar questions

A charge particle is undergoing uniform circular motion due to a constant magnetic field. Which of the following will increase the radius of the particle's circular path? A. decreasing its mass B. increasing its charge C. decreasing the magnitude of the ratio of its mass to charge D. increasing the magnitude of the ratio of magnetic field strength to speed E. decreasing the magnetic field strength.
1a. What is the maximum force on an aluminum rod with a 0.450-µC charge that you pass between the poles of a 2.00-T permanent magnet at a speed of 2.00 m/s? 1b.In what direction is the force? - parallel to both the velocity and the magnetic field - parallel to the velocity and perpendicular to the magnetic field - perpendicular to the velocity and parallel to the magnetic field - perpendicular to both the velocity and the magnetic field
true or false? parts d and e only
Long Wire A long wire lying along the x-axis carries a current of 2.00 A in the +x direction. There is a uniform magnetic field present, given by B=0.003i+ 0.004j+0.002k, where i, j, k are the unit vectors along the cartesian coordinate axes') in units of Tesla. Calculate the y-component of the magnetic force acting on a segment of wire of length L = 12.5 cm. -5.00E-3 N Use the formula for the magnetic force on a straight wire carrying current in a uniform magnetic field. You can find the cross product by applying the right hand rule separately for each B component. Submit Answer Incorrect. Tries 2/5 Previous Tries
A hydroxide ion (OH−) in a glass of water has an average speed of about 600 m/s. A. Determine the magnitude of the electrical force between the hydroxide ion (charge -e) and a positive ion (charge +e) that is 1.0×10−8 m away (about the separation of 30 atoms). B. Determine the magnitude of the maximum magnetic force that Earth's 3.0×10−5 T magnetic field can exert on the ion.
Imagine a straight wire that is perpendicular to this page. If a current flows in the wire in a direction that is out of this page (toward you), the magnetic field of the wire will be a) radial and point away from the wire. b) radial and point toward the wire c) circles centered on the wire and point counter clockwise d) circles centered on the wire and point clockwise
Force on a Moving Charge: We observe that a moving charged particle experiences no magnetic force. From this we can definitely conclude that Group of answer choices A. either no magnetic field exists or the particle is moving perpendicular to the field. B. the particle is moving at right angles to the magnetic field. C. the particle must be moving parallel to the magnetic field. D. no magnetic field exists in that region of space. E. either no magnetic field exists or the particle is moving parallel to the field.