Question

In: Physics

The magnetic dipole moment (μ) of a coil depends on the current (I), the area of...

The magnetic dipole moment (μ) of a coil depends on the current (I), the area of the coil (A), and the number of loops (N). Rank the three different coils of wire shown figure below in order by the magnitude of their magnetic dipole moment.

Coil 1 Coil 3 N=6 A 61 Coil 2 2A 31

Rank the coils from greatest to least magnetic dipole moment. If the coils have the same magnetic dipole moment, place them on top of each other.

Coil 1 = single coil with area 10 cm? and I = 6 A Coil 3 = coil with 6 loops each with an area of 10 cm² and I = 1 A. Coil 2


Solutions

Expert Solution

genius_generous answered 2 years ago
Next > < Previous

Related Solutions

The torque (T) that is exerted on a magnetic dipole moment (μ) depends on the orientation...
The torque (T) that is exerted on a magnetic dipole moment (μ) depends on the orientation of the magnetic dipole moment. Rank the three loops of wire carrying current shown in (Figure 4) in order by the magnitude of the torque exerted on them. Rank the magnitude of the torque exerted on the loops from greatest to least. If two loops have the same magnitude of torque, place one on top of the other. 
What is the difference between a magnetic dipole and a magnetic moment?
What is the difference between a magnetic dipole and a magnetic moment?
What is the measured component of the orbital magnetic dipole moment of an electron with (a)...
What is the measured component of the orbital magnetic dipole moment of an electron with (a) ml = 3 and (b) ml = -4?
What is the measured component of the orbital magnetic dipole moment of an electron with (a)...
What is the measured component of the orbital magnetic dipole moment of an electron with (a) ml = 1 and (b) ml = -2?
What is the measured component of the orbital magnetic dipole moment of an electron with (a)...
What is the measured component of the orbital magnetic dipole moment of an electron with (a) ml = 2 and (b) ml = -3?
Suppose that the magnetic dipole moment of Earth is 9.1 × 1022 J/T. (a) If the...
Suppose that the magnetic dipole moment of Earth is 9.1 × 1022 J/T. (a) If the origin of this magnetism were a magnetized iron sphere at the center of Earth, what would be its radius? (b) What fraction of the volume of Earth would such a sphere occupy? The radius of Earth is 6.37 × 106 m. Assume complete alignment of the dipoles. The density of Earth's inner core is 11 g/cm3. The magnetic dipole moment of an iron atom...
Consider a single coil carrying a current I. a. What are the electric and magnetic fields...
Consider a single coil carrying a current I. a. What are the electric and magnetic fields at the center of the coil? b. Now suppose the coil is moving at a speed v perpendicular to its axis. What are the electric and magnetic fields at the center of the coil? c. What is the physical origin of the electric field you just found? Where are the charges?
The dipole moment (μ) of HBr (a polar covalent molecule) is 0.824D (debye), and its percent...
The dipole moment (μ) of HBr (a polar covalent molecule) is 0.824D (debye), and its percent ionic character is 12.2 % . Estimate the bond length of the H−Br bond in picometers. Note that 1 D=3.34×10−30 C⋅m and in a bond with 100% ionic character, Q=1.6×10−19 C. Express your answer to two significant figures and include the appropriate units.
A rectangular coil with N turns and area A is place in a uniform magnetic field...
A rectangular coil with N turns and area A is place in a uniform magnetic field directed into y-direction. (a) What amount of emf is induced in the coil if the coil doesn’t move or rotate? . Let’s say the coil rotates about the z-axis through its center at a constant angular velocity LaTeX: \omegaω. (b) What would be total magnetic flux through the coil as a function of LaTeX: \thetaθ ? (LaTeX: \thetaθ is the angle between the directions...
Calculate the magnetic dipole moment in units of (J/T)for an electron having a principle quantum number...
Calculate the magnetic dipole moment in units of (J/T)for an electron having a principle quantum number n = 3. a) By using quantum theory. b) Using Bohr Theory.
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT