A sample of a new material is placed in a strong magnetic field. When the magnetic...

PLEASE explain 1. When an iron bar is placed in a magnetic field, the magnetic field...

PLEASE explain 1. When an iron bar is placed in a magnetic field, the magnetic field around the bar a. strongly decreases b. slightly decreases c stays the same d. slightly increases e strongly increases

A Gouy balance is used to determine the magnetic susceptibility of a substance. A strong electromagnet...

A Gouy balance is used to determine the magnetic susceptibility of a substance. A strong electromagnet is placed next to the sample, which is on a balance. If the sample is paramagnetic, the mass reading of the balance will increase when the field is switched on. Based on their electron configurations, predict whether these elements are paramagnetic or diamagnetic. He, Be, C, N

A Gouy balance is used to determine the magnetic susceptibility of a substance. A strong electromagnet...

A Gouy balance is used to determine the magnetic susceptibility of a substance. A strong electromagnet is placed next to the sample, which is on a balance. If the sample is paramagnetic, the mass reading of the balance will increase when the field is switched on. Based on their electron configurations, predict whether these elements are paramagnetic or diamagnetic. Ca Cl Si Ar

When a small magnet is placed in a magnetic field, it is found that the magnet...

When a small magnet is placed in a magnetic field, it is found that the magnet moves along one direction. What information can you get about the magnetic field in the space?

I need parts a-e clearly specified. 7) A toroidal sample of magnetic material of susceptibility χm...

I need parts a-e clearly specified. 7) A toroidal sample of magnetic material of susceptibility χm = 2 x 10-2 is wound with 1000 turns of wire carrying a current of 2 amps. The toroid is 15 cm long. a) Find the solenoidal current density Jfree b) Determine the magnetic field intensity H produced by the current. c) Calculate μ, the magnetic permeability of the material. d) Calculate the induced magnetization M in the material. e) Calculate the magnetic field...

At the equator near Earth's surface, the magnetic field is approximately 50.0 μT to the north...

At the equator near Earth's surface, the magnetic field is approximately 50.0 μT to the north and the electric field is approximately 100 N / C down in particular weather conditions. Find (a) the gravitational force, (b) electric force, and (c) magnetic force on an electron with an instantaneous velocity of 6.00 × 106 m / s directed eastward in this environment. (d) What is the total force on the electron and (e) what is the final acceleration on the...

What is produced by a changing magnetic field? electric field? a. electric field b. gravitational field...

What is produced by a changing magnetic field? electric field? a. electric field b. gravitational field c. magnetic field d. protons e. electrons

In magnetic resonance imaging (MRI), a patient lies in a strong 1- to 2-TT magnetic field...

In magnetic resonance imaging (MRI), a patient lies in a strong 1- to 2-TT magnetic field B⃗ B→ oriented parallel to the body. This field is produced by a large superconducting solenoid. The MRI measurements depend on the magnetic dipole moment μ⃗ μ→ of a proton, the nucleus of a hydrogen atom. The proton magnetic dipoles can have only two orientations: either with the field or against the field. The energy needed to reverse this orientation ("flip" the protons) from...

Consider an electromagnet capable of producing a maximum magnetic field of (2.50+A) T. A circular loop...

Consider an electromagnet capable of producing a maximum magnetic field of (2.50+A) T. A circular loop of wire with a diameter of (4.50+B) cm is placed between the poles of the electromagnet. What is the induced EMF in the loop, if the electromagnet is turned on to full strength in (1.20+C) milliseconds? Assume the loop is perpendicular to the magnetic field. Calculate the answer in volts (V) and rounded to three significant figures. A: 1 B: 4 C: 6 Please...

A coil 5.00 cm in radius, containing 250 turns, is placed in a uniform magnetic field...

A coil 5.00 cm in radius, containing 250 turns, is placed in a uniform magnetic field that varies with time according to: B = (0.230 T/s)t + (4.00 x 10-5 T/s5)t5.  The coil is connected to a 450 ohm resistor, and its plane is perpendicular to the magnetic field.  The resistance of the coil can be neglected.  Find the induced emf in the coil as a function of time.