If R is the distance from a magnetic dipole, then themagnetic field it produces is proportional...

What is the magnitude of the magnetic field at a distance R=1 m from a straight...

What is the magnitude of the magnetic field at a distance R=1 m from a straight wire which carries an electric current I=1 A? A)1.99×10−7 N/(A·m) B) 1.99X107 T C) There is no magnetic field D)It depends on the direction of the current E) 7.5×104 T

A current-carrying coil produces a magnetic field. It is suggested that the strength, B, of the...

A current-carrying coil produces a magnetic field. It is suggested that the strength, B, of the magnetic field at the center of a flat circular coil is inversely proportional to the radius, r, of the coil. With the use of a diagram, use hall probe to test the relationship between B and r

A very long straight current-carrying wire produces a magnetic field of 20 mT at a distance...

A very long straight current-carrying wire produces a magnetic field of 20 mT at a distance 2 m from the wire. What is value of the current that produces this filed at 2 m from the wire? To measure a field of 5 mT due to current in this wire, at what distance from the wire should you keep the measuring device to measure the magnetic field? If you double the current what will be the filed strengths at these...

Use the Biot-Savart Law to calculate the magnetic field a distance r away from a long...

Use the Biot-Savart Law to calculate the magnetic field a distance r away from a long current carrying wire.

Use Ampere’s Law to determine the magnetic field as a function of r (distance from the...

Use Ampere’s Law to determine the magnetic field as a function of r (distance from the symmetry axis) both inside and outside an infinitely long cylinder of radius R, carrying a current Iothat is(show all relevant steps and any symmetry arguments in part a, then you don’t have to repeat them in part b): a) uniformly distributed over the surface of the cylinder (i.e., at r = R) b) uniformly distributed throughout the cylinder

1) Determine the maximum values ​​of the angular momentum and the magnetic dipole moment of an...

1) Determine the maximum values ​​of the angular momentum and the magnetic dipole moment of an electron of the M layer 2) What is the average potential energy of the magnetic dipole moment of a 4p electron, placed in an external magnetic field of 0.25T?

Suppose that you have a circular magnetic field ‘B’ of radius R = 9.0 cm, pointing...

Suppose that you have a circular magnetic field ‘B’ of radius R = 9.0 cm, pointing inside the page and if this field is increased at the rate dB/dt = 0.15 T/sec. calculate (a) the magnitude of induced electric field at a point within the magnetic field at a distance r =5.0 cm, from the center of the field and (b) the magnitude of the induced electric field at a point out side the magnetic field at a distance r...

The magnetic field produced by a toroid 1) falls off as 1/r away from the toroid....

The magnetic field produced by a toroid 1) falls off as 1/r away from the toroid. 2) is nearly zero outside the toroid. 3) is a uniform field 4) is four times that produced by a hemiroid.

Measuring Magnetic Fields] The horizontal component of the Earth’s magnetic field is 2 x 10-5 Tesla....

Measuring Magnetic Fields] The horizontal component of the Earth’s magnetic field is 2 x 10-5 Tesla. Suppose you bring a bar magnet such that it is 3 cm from a magnetic compass. The bar magnet makes the compass deflect 15.6 degrees. What is the strength of the magnetic field due to the bar magnet at that location?  Suppose this bar magnet is a magnetic dipole. What is the value of the magnetic dipole moment? Remember that

Please Explain each of them in 10 lines: § how a changing magnetic field produces an...

Please Explain each of them in 10 lines: § how a changing magnetic field produces an electric field §Inductance and give examples of applications and relevance § the concept of electro magnetic field in self induction, how is it generated thank you, write in a clear way please