The bent wire shown in the figure lies in a uniform magnetic field. Each straight section is 2.0 m long and makes an angle of θ = 60° with the x axis, and the wire carries a current of 2.0 A. What is the magnitude of the magnetic force on the wire in unit-vector notation if the magnetic field is given by (a) 4.0 k T and (b) 4.0 iT?
The bent wire shown in the figure lies in a uniform magnetic field. Each straight section is 2.0 m long and makes an angle of θ = 60° with the x axis, and the wire carries a current of 2.0 A.
Chapter 28, Problem 042 The bent wire shown in the figure lies in a uniform magnetic field. Each straight section is 2.78 m long and makes an angle of θ=42.1° with the x axis, and the wire carries a current of 1.21 A. What is the net magnetic force on the wire in unit-vector notation if the magnetic field is given by (a)3.91 kT? (b)3.75 İ T?
The bent wire shown Fig. 28-41 lies in a uniform magnetic field. Each straight section is 1.40 m long and makes an angle of θ=51.10o with the x axis, and the wire carries a current of 2.75 A. What is the net magnetic force on the wire in unit-vector notation if the magnetic field is given by (a) 5.0 k T? (b) 4.31i I got 12.08 but it says it is incorrect.
4 Problem long wire is bent to form a rectangular section and is placed in sregion with a uniform naietis field, as shown in Figure 27.4. The magnetic field is directed downward and has a magnitude of 2.5 τ The wire carries a 25-A curent Find the net torque on the wire about the axis. 025 m to form shown carries a 25-A 025 m 4 Problem long wire is bent to form a rectangular section and is placed in...
A straight wire of length 70 cm carries a current of 50 A and makes an angle of 60 with a uniform magnetic field. If the force on the wire is 1.0 N, what is the magnitude of B? (Note that 1 mT = 10-3T.) A. 41 mT: B. 73 mT: C. 87 mT D. 37 mT E. 33 mT: F. 25 mT: G. 62 mT
(9) A straight wire is placed in a uniform magnetic field; the wire makes an angle of θ with the magnetic field. The wire carries a current i, and the magnetic field strength is T. Calculate the force on a segment of length l of this wire. Show the direction of the force in a sketch, which also indicates the direction of the field and the magnetic field. [20 pts]
A 1.50 m long straight wire lies along the z axis and carries a steady current in the +z direction. A uniform magnetic field exists everywhere in space and is given by B⃗→ = (3.00 i^ + 4.00 j^) T. If the field exerts a force on the wire of magnitude 60.0 N, find the current carried by the wire.
10. A wire bent at a right angle carries a current I = 3.0 A, as shown below. The length of each straight side of the wire is 2.0 m, as shown. 2.0 m I = 3.0 A I = 3.0 A 2.0 m If this wire is in a region where there is a uniform magnetic field B =-(2.0 T) k , find the net magnetic force exerted on the wire. (Give this force in component form.) (10 pts)
A wire carries a steady current of 2.00 A. A straight section of the wire is 0.750 m long and lies along the y axis within a uniform magnetic field, = 2.00 T. If the current is in the negative y direction, what is the magnetic force on the section of wire? Find magnitude. Already know direction is - x axis thank you
A long straight wire sits on the z-axis and carries a current of 2.92 amps in the positive z direction. A uniform external magnetic field of 8.08 T points in a direction that makes an angle of 39.5 degrees with the wire. Find the magnitude of the force on the section of wire that runs from z = 0 m to z = 6.79 m. Answer in units of N.
A long, straight wire lies along the y-axis and carries a current I = 11 A in the y-direction (see figure. In addition to the magnetic field due to the current in the wire, a uniform magnetic field B0 with magnitude 1.3 x 10-6 T is in the +x-direction. What is the magnitude of the total field at point (c)x = 0, z= -0.21 m? (Give your answer in decimal using "microT" (micro Tesla) as unit )