Matlab Please! A small, circular wire loop of radius a and constant current I works as...
Problem 1 (25 points): Magnetic Fields. A circular loop of current I, and radius ro lies in the x-y plane as shown. P (ro,0,zo) a) Using the Biot-Savart Law, set up the integral expression to evaluate the magnetic flux density at the point P (ro,0,zo). Do not evaluate the integral(s) in this part but specify the expressions for the x, y, and z components of the resulting flux density Problem 1 (continued): b) Given the right-hand rule for magnetic fields...
Problem 1 (25 points): Magnetic Fields. A circular loop of current Io and radius ro lies in the x-y plane as shown P (ro,0,zo) 0 a) Using the Biot-Savart Law, set up the integral expression to evaluate the magnetic flux density at the point P (ro,0,zo). Do not evaluate the integral(s) in this part but specify the expressions for the x, y, and z components of the resulting flux density. b) Given the right-hand rule for magnetic fields around currents,...
To make an electric motor, you create a circular loop of wire with radius 0.0100 m. You also have a magnet that can produce a relatively uniform magnetic field of strength 0.30 T 2. a. At a certain point, the magnetic flux through the loop is 2.00 x 10- T.m2; what is the angle between the plane of the loop and the field? (Note: the angle is zero if the loop is oriented like figure P27.21 in Practice, p. 495.)...
A circular loop of wire having a radius of 9.05 cm carries a current of 0.288 A. A vector of unit length and parallel to the dipole moment of the loop is given by 0.60i – 0.80j. If the loop is located in a uniform magnetic field given by B = (0.522 T) j + (0.386 T)k , find (a) the x-component, (b) the y-component, and (c) the z-component of the torque on the loop and (d) the magnetic potential...
A circular loop of wire having a radius of 5.94 cm carries a current of 0.280 A. A vector of unit length and parallel to the dipole moment of the loop is given by 0.60i – 0.80j . If the loop is located in a uniform magnetic field given by Upper B = (0.715 T) i + (0.731 T) k find (a) the x-component, (b) the y-component, and (c) the z-component of the torque on the loop and (d) the...
A circular loop of wire having a radius of 5.13 cm carries a current of 0.233 A. A vector of unit length and parallel to the dipole moment of the loop is given by 0.60 i - 0.80 i. If the loop is located in a uniform magnetic field given by B = (0.990 T)/+ (0.626 T) , find (a) the x-component, (b) the y-component, and (c) the z-component of the torque on the loop and (d) the magnetic potential...
A circular loop of wire having a radius of 6.96 cm carries a current of 0.100 A. A vector of unit length and parallel to the dipole moment of the loop is given by 0.60i Overscript ̂ EndScripts – 0.80j Overscript ̂ EndScripts. If the loop is located in a uniform magnetic field given by Upper B Overscript right-arrow EndScripts = (0.542 T)i Overscript ̂ EndScripts + (0.847 T)k Overscript ̂ EndScripts, find (a) the x-component, (b) the y-component, and...
A very small circular loop of radius a(a < λ/6π) and constant current 10 is symmetrically placed about the originatO and with the plane of its area parallel to the y-z plane. Find the (a) spherical E- and H-field components radiated by the loop in the far zone (b) directivity of the antenna A very small circular loop of radius a(a
A circular loop of wire having a radius of 5.43 cm carries a current of 0.181 A. A vector of unit length and parallel to the dipole mome ent of the loop is given by 0.60 0.80 . If the loop is located in a uniform magnetic field given by B (0.531T + (0.192 T) , find (a) the x-component, (b) the y-component, and (c) the z-component of the torque on the loop and (a) nd (c) the z-component of...
A circular loop of wire, centered at the origin, lies in the xy plane. The loop has a radius of 10.0cm. A cylindrical magnet (radius 0.5 cm and length-5 cm) starts out at rest with its primary axis along the z-axis. The bottom tip of the magnet is a north-pole and is situated at z 8 cm. The magnet is dropped straight down so that it falls north- pole down and it goes straight through the center of the loop....