A wire carrying a current of 2.60 A has a straight segment of
2.35 m. Determine the magnitude of the magnetic field due to this
segment of wire at a point P which is at the end of the
straight segment of wire and a distance of 2.66 m perpendicular to
the wire.
A wire carrying a current of 2.60 A has a straight segment of 2.35 m. Determine...
A very long straight wire carrying an electric current is perpendicular to the x-y plane. The current has a value of 31.5 A and is directed in the -z (into the page). At point 'p', the magnetic field B is represented by one of the arrows. Calculate the magnitude of the B-field at 'p'. Calculate the x-component of the B-field at 'p'. A very long straight wire carrying an electric current is perpendicular to the x-y plane. The current has a...
3. a 2.0-m wire segment carrying a current of 0.60 A oriented perpendicular to a uniform magnetic field of 0.50 T experiences a force of what magnitude? 3.
Find the magnetic force vector on a 2 m segment of straight wire carrying a current of 1/2 A in the z-direction through a uniform magnetic field of 80 mT going in the x-direction.
Consider 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 = 20.0°, the radius of the arc is 0.700 m, and the current is 2.00 A, what are the magnitude (in nT) and direction of the field produced at P? P i magnitude 285.7 Apply the Biot-Savart law. What will be the contributions of the segments of wire along...
Problem 6: A flat rectangular wire loop is positioned next to a long straight current-carrying wire. Both the loop and the wire are in the plane of the page, and the direction of the current is clearly indicated in the figure.Part (a) Which image best indicates the direction of the magnetic field due to the current in the long straight wire at a point inside the loop? Part (b) How does the magnitude of the magnetic field change as the perpendicular...
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 very long straight wire carrying an electric current is perpendicular to the x-y plane. The current has a value of 31.1 A and is directed in the +z (out of the page). At point 'p', the magnetic field B is represented by one of the arrows. 1. Indicate the direction of the magnetic field at point 'p'. 2. Calculate the magnitude of the B-field at 'p'. 3. Calculate the y-component of the B-field at 'p'. :wire 1p :: ?...
3) Current-carrying Straight Wires - Magnetic Field Nearby In these cases, long, straight wires that are perpendicular to the page are carrying electric currents into the page. Wire W Wire W Wire W- --Wire W 2 AP 2A 2A 2A P P ZAP tong sampung ----- ---- his 0 eded Rank the strength (magnitude) of the magnetic field at P due to wire W. Explain your reasoning. @ BM --- 12501 01 1291893 moitalnomgoz stw od no 90101 pisongsmodi to...
27. A 2.0-m wire segment carrying a current of 0.60 A oriented parallel to a uniform magnetic field of 0.25 T experiences a force of what magnitude? a. 0.30 N b. 6.7 N c. 0.15 N d. zero 28. A horizontal wire of length 3.6 m carries a current of 6.0 A and is oriented so that the current direction is 50-S of W. The Earth's magnetic field is due north at this point and has a strength of 0.14...
The size of the magnetic force on a straight wire of length L carrying current I in a uniform magnetic field with strength B is F=ILBsin(?). Here ? is the angle between the direction of the current (along the wire) and the direction of the magnetic field. Hence Bsin(?) refers to the component of the magnetic field that is perpendicular to the wire, B?. Thus this equation can also be written as F=ILB?. The direction of the magnetic force on...