2) Find the current in amps to produce a magnetic field 3 of 02.67 Tesla at...
PHYSathe PM 1 Phy143 T3 Elec-Man, Material Properties, Fluids F16 - Schermerhorn Mainly from homework 6, 7 and 8 1) if a current is flowing in a wire at point A out of this test paper, draw the magnetic field vector at point B to the right and point C below А, В 2) Find the current in amps to produce a magnetic field 3 of 02.67 Tesla at a position r = 2.25 m away from a long wire...
A long wire with a radius of R-10.6 mm, is carrying a current of 1-9.5 mA. Find the size of the magnetic field at a distance of r 8.3 mm from the wires center axis. Give answer in Tesla. Check A long wire with a radius of R-10.6 mm, is carrying a current of 1-9.5 mA. Find the size of the magnetic field at a distance of r 8.3 mm from the wires center axis. Give answer in Tesla. Check
A. What current is needed if I want to produce a magnetic field of 0.5mT at 50cm away from a straight wire? B. What is the magnetic field of a solenoid with a 500mA current and 200 turns per meter?
3. (a) Use Biot-Savart Law to find the magnetic field of wire, along the z-axis, carrying a current I (in direction), at a point P a distance r from the wire. Do this for both a finite wire (21 <2<z2), and an infinite wire (-0<z< too). (6) Use the result of part (a) to evaluate the net magnetic field of the wires shown at point P (0,0,2). [15] z P (0,0,2) 22 di 0 B (0,2,0) tec у P(x,y) A...
The magnetic field magnitude is 5.5 mT at a position 6.2 mm radially away from a long current-carrying wire. Please answer both!
11. An aluminum wire with a square cross-section 2 mm on a side is carrying a current of 1.5 amps. Aluminum has a resistivity of 2.69 x 10* ohm-cm and an atormic volume of 10 cc/mol. Assuming aluminum has three free electrons per atom, calculate the (a) Hall coeffcient, (b) electron mobility, (c) drift velocity, d) collision time. (e) electric field, (f) power dissipated (heat generated) per cm length, and (g) the Hall voltage across the wire in a transverse...
Calculate the magnetic field 28.0 cm away from a long straight wire carrying a current of 2.80 A
If the magnetic field due to a long, straight current-carrying wire has a magnitude B at a distance R from the wire’s center, how far away must you be (in terms of R) for the magnetic field to decrease to B/3?
A long wire carries a current of 0.475 A. Find the magnitude of the magnetic field 0.740 m away from the wire.
A long wire carries a current of 0.465 A. Find the magnitude of the magnetic field 0.685 m away from the wire. T