A short current element dl⃗ =(0.500mm)j^ carries a current of 8.80 A in the same direction as dl⃗ . Point P is located at r⃗ =(−0.730m)i^+(0.390m)k^.
Find the magnetic field at P produced by this current element.
A short current element dl⃗ =(0.500mm)j^ carries a current of 8.80 A in the same direction...
A short current element dl⃗ = (0.500 mm)j^ carries a current of 4.80 A in the same direction as dl⃗ . Point P is located at r⃗ = ( -0.730 m)i^+ (0.390m)k^. Find the magnetic field at P produced by this current element. Enter the x, y, and z components of the magnetic field separated by commas.
A short current element dl⃗ = (0.500 mm)j^ carries a current of 4.50 A in the same direction as dl⃗ . Point P is located at r⃗ = ( -0.730 m)i^+ (0.390m)k^. Part A Find the magnetic field at P produced by this current element. Enter the x, y, and z components of the magnetic field separated by commas. dBx, dBx dBy, dBz =
A short current element dl⃗ = (0.500 mm)j^ carries a current of 4.40 A in the same direction as dl⃗ . Point P is located at r⃗ = ( -0.730 m)i^+ (0.390m)k^. Find the magnetic field at P produced by this current element. Enter the x, y, and z components of the magnetic field separated by commas.
Constants Part A A short current element dT - (0.500 mm)j carries a current of 5.30 A in the same direction as dl Point P is located at i (-0.730 m), + (0.390 m)k. Find the magnetic field at P produced by this current element. Enter the x, y, and z components of the magnetic field separated by commas. fanableae Symbols Rco vodo rest keyboard shontcuts elie Submit Request Answer
A small current element at the origin has a length of 3.8 mm and carries a current of 1.8 A in the +z direction. Find the magnitude and direction of the magnetic field due to this current element at the point (0, 3.8 m, 4.6 m). B = * ptî + 0 pt î + 0 рт k
A small current element at the origin has a length of 3.9 mm and carries a current of 3.8 A In the +z direction. Find the magnitude and direction of the magnetic field due to this current element at the point (0, 4.2 m, 3.9 m).
An infinitely long wire carries a current I along the +x direction. Determine the magnetic field for a point P located a distance y along the y-axis.
A long, straight wire carries a current of 1.7 A in the +z direction and lies along the line x = +3.0 cm, y = 0. A second such wire carries a current of 1.7 A in the +z direction and lies along the line x = -3.0 cm, y = 0. Find (a) the magnetic field at a point P on the y axis at y = 6.0 cm (-9.1 x 10-6 T i) and (b) the force between...
An infinitely long, straight, cylindrical wire of radius R carries a uniform current density J. Using symmetry and Ampere's law, find the magnitude and direction of the magnetic field at a point inside the wire. For the purposes of this problem, use a cylindrical coordinate system with the current in the +z-direction, as shown coming out of the screen in the top illustration. The radial r-coordinate of each point is the distance to the central axis of the wire, and...
The coil in the figure below carries a current of 2.00 A in the direction indicated, is parallel to an xz plane, has 3 turns, an area of 4.05 10-3 m2, and lies within a uniform magnetic field vector B = (2.20 i hat ? 3.15 j ? 3.85 k) mT. (a) What is the orientation energy of the coil in the magnetic field? -7.6545e-5 Correct: Your answer is correct. J (b) What is the torque (in unit-vector notation) on...