Final answer:
The question deals with the calculation of the magnetic field magnitude at a point due to two current-carrying wire segments. Additional details such as the current in the wire and orientation are required to perform the calculation; hence an exact calculation isn't provided. The application of the Biot-Savart Law and the right-hand rule would be involved in finding the solution.
Step-by-step explanation:
The subject of this question is Physics, particularly the concept of magnetism and the calculation of the magnetic field magnitude due to current-carrying wires. In this context, the student is asked to determine the magnitude of the magnetic field at point P caused by two segments of carrying wire positioned symmetrically about point P and at the same distance from it. The question mentions that each wire segment is 1.50 mm long and that they are located 8.00 cm from point P.
To find the magnitude of the magnetic field at point P due to these two wire segments, one would typically apply the Biot-Savart Law, which relates the magnetic field produced by a current segment to the distance from the segment. However, additional details such as the current in the wire and the orientation of the wires relative to point P are needed to perform an actual calculation.
If we assume a current I flows through the wires, the direction of the magnetic field at the point P due to each wire can be assessed using the right-hand rule. Provided that the net magnetic field can be calculated by vectorially adding the magnetic field contributions from each segment, we could then calculate the magnitude of the magnetic field at point P.