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Question 4 (1 point) A wire of length 10 m carrying a current is forms a...
Figure (a) shows a length of wire carrying a current and bent into a circular coil...
Figure (a) shows a length of wire carrying a current and bent into a circular coil of one turn. In figure (b) the same length of wire has been bent more sharply, to give a coil of two turns, each of half the original radius (a) If Ba and Bo are the magnitudes of the magnetic fields at the centers of the two coils, what is the ratio BWB? (b) what is the ratio of the dipole moments, μαυα, of...
Figure (a) shows a length of wire carrying a current i and bent into a circular...
Figure (a) shows a length of wire carrying a current i and bent into a circular coil of one turn. In Figure (b) the same length of wire has been bent to give a coil of 6 turns, each of 1/6 the original radius. (a) If Ba and Bb are the magnitudes of the magnetic fields at the centers of the two coils, what is the ratioBb/Ba? (b) What is the ratio
Two circular coils of current-carrying wire have the same magnetic moment. The first coil has a...
Two circular coils of current-carrying wire have the same magnetic moment. The first coil has a radius of 0.092 m, has 144 turns, and carries a current of 4.5 A. The second coil has 166 turns and carries a current of 9.3 A. What is the radius of the second coil?
A straight wire of length / carrying current / crosses a region of the space with...
A straight wire of length / carrying current / crosses a region of the space with uniform magnetie field B. The force exerted on the wire is F. Find the angle between the wire and the force mies of the magnetic field. A doughnut coil of a square cross-section has two windings with numbers of turns Ni and N2 made one on top of another. The inner and outer radiuses of the doughnut are a and b, respectively. Find the...
A current-carrying wire moves toward a coil A long straight wire carrying current I is moving...
A current-carrying wire moves toward a coil A long straight wire carrying current I is moving with speed v toward a small circular coil of radius r containing N turns, which is attached to a voltmeter as shown. The long wire is in the plane of the coil. (Only a small portion of the wire is shown in the diagram.) Voltmeter N turns radius r The radius of the coil is 0.02 m, and the coil has 11 turns. At...
A single circular loop of wire carrying a current of 5.0 amps produces a magnetic flux...
A single circular loop of wire carrying a current of 5.0 amps produces a magnetic flux density B at its centre. If the same length of wire is now used to make a flat coil with 10 loops, what current would be needed to produce the same magnetic flux density at its centre?
Show steps. Problem 5 (25pts). A Helmholtz coil (see figure below) is a structure used for...
Show steps.
Problem 5 (25pts). A Helmholtz coil (see figure below) is a structure used for creating uniform magnetic fields at the centre. Consider two thin circular coaxial coils each of radius R, having N turns, carrying a current I in the same direction and separated by a distance d. The field due to the thin wire connecting the two coils can be ignored a) Find the magnetic field B on the axis of symmetry (the r-axis) of the Helmholtz...
4. A thin wire carrying a current I is bent into a shape with a central...
4. A thin wire carrying a current I is bent into a shape with a central circular portion of radius R centered at the origin, and with two semi-infinite arms that extend to ro, as shown in the figure below. Find the direction and the magnitude of the magnetic field B at the center. y R I
A wire has a length of 7.66 × 10-2 m and is used to make a...
A wire has a length of 7.66 × 10-2 m and is used to make a circular coil of one turn. There is a current of 2.18 A in the wire. In the presence of a 4.94-T magnetic field, what is the maximum torque that this coil can experience?
A wire has a length of 4.53 × 10-2 m and is used to make a...
A wire has a length of 4.53 × 10-2 m and is used to make a circular coil of one turn. There is a current of 5.17 A in the wire. In the presence of a 6.92-T magnetic field, what is the maximum torque that this coil can experience?
Figure (a) shows a length of wire carrying a current and bent into a circular coil of one turn. In figure (b) the same length of wire has been bent more sharply, to give a coil of two turns, each of half the original radius (a) If Ba and Bo are the magnitudes of the magnetic fields at the centers of the two coils, what is the ratio BWB? (b) what is the ratio of the dipole moments, μαυα, of...
A straight wire of length / carrying current / crosses a region of the space with uniform magnetie field B. The force exerted on the wire is F. Find the angle between the wire and the force mies of the magnetic field. A doughnut coil of a square cross-section has two windings with numbers of turns Ni and N2 made one on top of another. The inner and outer radiuses of the doughnut are a and b, respectively. Find the...
A current-carrying wire moves toward a coil A long straight wire carrying current I is moving with speed v toward a small circular coil of radius r containing N turns, which is attached to a voltmeter as shown. The long wire is in the plane of the coil. (Only a small portion of the wire is shown in the diagram.) Voltmeter N turns radius r The radius of the coil is 0.02 m, and the coil has 11 turns. At...
Show steps.
Problem 5 (25pts). A Helmholtz coil (see figure below) is a structure used for creating uniform magnetic fields at the centre. Consider two thin circular coaxial coils each of radius R, having N turns, carrying a current I in the same direction and separated by a distance d. The field due to the thin wire connecting the two coils can be ignored a) Find the magnetic field B on the axis of symmetry (the r-axis) of the Helmholtz...
4. A thin wire carrying a current I is bent into a shape with a central circular portion of radius R centered at the origin, and with two semi-infinite arms that extend to ro, as shown in the figure below. Find the direction and the magnitude of the magnetic field B at the center. y R I
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