Two identical coils are parallel to each other on the same axis. They are separated by...

Helmholtz coils are frequently used in experiments because they create a uniform magnetic field about their...

Helmholtz coils are frequently used in experiments because they create a uniform magnetic field about their axial direction. For example, they are traditionally used in the experiment for the measurement of the charge to mass ratio of the electron. Helmholtz coils are two coils separated by a distance equal to their radius and also carry equal currents in the same direction, as shown in the figure on the right. Suppose the radius of the coils is 12.00 cm, each coil...

17.1) Helmholtz coils The magnetic field on the axis of a circular loop of wire is...

17.1) Helmholtz coils The magnetic field on the axis of a circular loop of wire is not very uniform (in fact, we showed that the field strength decreases as 1/r3 ). But, with two such coils, one can produce a relatively uniform field in a small neighborhood. Consider two parallel circular coils of radius a, centered on the y-axis. One coil is in the y = 0 plane, and the other is in the y = d plane. Assume that...

Helmholtz coils are a method developed to provide a uniform magnetic field in a small region....

Helmholtz coils are a method developed to provide a uniform magnetic field in a small region. They are constructed by placing two identical wire loops parallel to each other, separated by a distance equal to their radii, as shown in the Figure. Assume that the two loops are also connected in parallel to a power supply, so that they produce the same field. (a) Find the length of a 28-gauge copper wire that will produce a 75 Ω coil. m...

a) Two long, parallel wires are separated by a distance 3.00 cm and are repelling each...

a) Two long, parallel wires are separated by a distance 3.00 cm and are repelling each other with a force per unit length of 2.00×10−5 Nm−1 . If a current of 0.600 A is flowing along one wire, what is the current in the other wire? Are the currents flowing in the same directions or in opposite directions? b) Two long, parallel wires are hanging by regularly spaced, 4.00 cm long cords from a common axis. The wires have a...

Consider two long and parallel current carrying wires that are a distance 3.00 m away from...

Consider two long and parallel current carrying wires that are a distance 3.00 m away from each other, and carrying 72.0 mA and 33.0 mA currents. Assume that the origin of the coordinate system is on the 33.0 mA wire and its positive x axis is directed towards the 72.0 mA wire that is perpendicular to the wires. a.) If these currents are in the opposite direction, find all locations where the net magnetic field of the two wires is...

Consider two long and parallel current carrying wires that are a distance 5.00 mm away from...

Consider two long and parallel current carrying wires that are a distance 5.00 mm away from each other, and carrying 77.0 mAmA and 35.0 mAmA currents. Assume that the origin of the coordinate system is on the 35.0 mAmA wire and its positive xx axis is directed towards the 77.0 mAmA wire that is perpendicular to the wires. a) If these currents are in the opposite direction, find all locations where the net magnetic field of the two wires is...

You know that two infinite sheets of opposite charge can be used to create a uniform...

You know that two infinite sheets of opposite charge can be used to create a uniform electric field (for points between the two sheets) and you know that two infinite arrays of opposite current carrying wires can produce a uniform magnetic field (for points between the two arrays), but there is another possibility. Recall that two large circular coils with N tightly wound turns of radius Rcan also yield a uniform magnetic field. If the two coils are separated by...

Two long, parallel wires are separated by 2.6 mm. Each wire has a 32-AA current, but...

Two long, parallel wires are separated by 2.6 mm. Each wire has a 32-AA current, but the currents are in opposite directions. a. Determine the magnitude of the net magnetic field midway between the wires. b. Determine the magnitude of the net magnetic field at a point 1.3 mm to the side of one wire and 3.9 mm from the other wire. The point is in the same plane as the wires.

Two long wires are aligned parallel to each other and separated by 20.0 cm. One wire...

Two long wires are aligned parallel to each other and separated by 20.0 cm. One wire carries a current, I1 and the other carries a current I2 in the opposite direction, where for the current magnitudes, I2 = 3 I1. The magnitude of the magnetic field at a point midway between the wires is4.0 μT. Determine I2.

Two long wires are aligned parallel to each other and separated by 20.0 cm. One wire...

Two long wires are aligned parallel to each other and separated by 20.0 cm. One wire carries a current, I1and the other carries a current I2 in the opposite direction, where for the current magnitudes, I2 = 3 I1. The magnitude of the magnetic field at a point midway between the wires is 4.0 μT. Determine I2.