An infinitely long wire carrying current, I, is bent into two straight sections and a circular arc as shown in the figure. Write a symbolic expression for the magnetic field produced by the current-carrying wire at point P, in terms of the current, I, the radius, r, the angle, 8, and constants (all as needed). B = out of the page P X
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- Each of the two "infinite" parallel wires (perpendicular to the plane of the page) carries a current of I=1.65 A. The direction each current is shown with a dot or a cross; a=0.168 m.Find the magnitude of the magnetic field at a point A: BA= T.This field is directed to? Find the magnitude of the magnetic field at a point B: BB= T.This field is directed to?An infinitely long wire carrying current, I, is bent in the middle so that the horizontal and vertical sections are connected by a circular arc with radius, R, as shown in the figure. Write a symbolic expression for the strength of the magnetic field produced at the center point, P, in terms of I, R, and constants (all as needed), and indicate its direction. B = into the page I D R IFour long straight wires are at the corners of a square. The currents are not all in same direction, but all have the same magnitude, ?. Which arrow best describes the direction of the net magnetic field due to all wires at point P? (Select one arrow.)
- A solid cylindrical conductor is supported by insulating disks on the axis of a conducting tube with outer radius R, = 6.95 Cm and inner radius R, = 4,75 Cm (Figure 1) The central conductor and the conducting tube carry equal currents of I = 4.05 A in opposite directions. The currents are distributed uniformly over the cross sections of each conductor. What is the value of the magnetic field at a distance T = 5.33 cm from the axis of the conducting tube?i have a question with number 22Consider the current-carrying wire shown in the figure. The current creates a magnetic field at the point P, which is the center of the arc segment of the wire. If 0 = 25.0°, the radius of the arc is 0.800 m, and the current is 4.00 A, what are the magnitude (in nT) and direction of the field produced at P? magnitude direction Jo into the screen nT
- A wire carrying a current is shaped in the form of a circular arc of angle 60° and radius 5.0 mm. If the magnetic field strength that this current produces at point A in the center of the arc is 22.0 µT, what is the magnitude of the current that flows through the arc? Give your answer in Amp. If the B field at A is out of the page, what is the direction of the current on the arc of wire? (select one of the following: cw, ccw, right, left, into or out) A 9 MEIn the following figure, there are three current carrying wires 1=1.00 A, I2= 0.25 A, and I3=0.50 A separated by the distances shown where d33 cm. Is I, ad a) Draw the configuration and label the direction of the magnetic fields from I1 and 12 at l3. b) Draw the direction of the force from I and I2 onto l3. c) Find the vector components of the resulting net force per unit length on I3.Shown below is a cross-sectional view of two long straight wires that are parallel to each other. One wire carries a current I1 = 5 A into the page, the other carries a current I2 = 12 A out of the page. The side length of a square is 0.1 cm. a) On the figure provided, draw the magnetic field vector created by each current at point A (the corner of the right angle triangle shown). b) Using the parallelogram or triangle method, draw the resultant (net) magnetic field at point A.
- Consider a short wire of length L, carrying a current I to the left. Define coordinates so that the wire is along the à axis, the current flows in the - direction, the y axis is vertical in the plane of the page and the 2 axis points out of the page. Which of the following expressions is an ap- proximate expression for the magnetic field at a point P on the y axis very close to the wire, i.e. a distance y < L below the mid- point of the wire? 1. B= 2(y2 + L2) O 2. B 0 3. B Hol 2ny Hol 4Vy2 + L² 4. B = Hol 4Ty 5. B = %3D O 6. B=-00 O, B = 47 (y2 + L2) 8. B = 27 Vy? + L2 40IL 2ny? 9. B = 10. B – _ 40! 2nyAn infinitely long, straight, cylindrical wire of radius R has a uniform current density J = Jî in cylindrical coordinates. What is the magnitude of the magnetic field at some point inside the wire at a distance r; < R from the wire's central Cross-sectional view axis? Express your answer in terms of R, r;, µo, and J. J B = Side view Assuming J is positive, what is the direction of the magnetic field at some point inside the wire? O positive z-direction negative z-direction positive r-direction negative r-direction positive p-direction negative p-directionIn the figure below, point P is at a perpendicular distance a = 13 cm from one end of a straight wire of length L = 15 cm carrying current I = 6 A. (Note that the wire is not long, or infinite.) What are the magnitude and direction of the magnetic field at P? For direction, you can say into or out of the page.