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If the current through the coil is 2.4 A, the diameter of the Helmholtz Coil is...
A set of Helmholtz coils has a coil diameter of D = 0.062 m , with...
A set of Helmholtz coils has a coil diameter of D = 0.062 m , with N = 18 turns in each coil, and the current flowing through the coils is I = 1.6 A. What will the magnitude of the magnetic field at the centre of the Helmholtz coils be? Express answer to two significant figures.
A 20.8 cm -diameter coil consists of 30 turns of circular copper wire 2.4 mm in...
A 20.8 cm -diameter coil consists of 30 turns of circular copper wire 2.4 mm in diameter. A uniform magnetic field, perpendicular to the plane of the coil, changes at a rate of 7.64×10−3 T/s . PART A: Determine the current in the loop. PART B: Determine the rate at which thermal energy is produced.
A circular coil of wire of 200 turns and diameter 2.0 cm carries a current of...
A circular coil of wire of 200 turns and diameter 2.0 cm carries a current of 5.0 A. It is placed in a magnetic field of 0.9T with the plane of the coil making an angle of 30° with the magnetic field. What is the magnetic torque on the coil? A circular coil of wire of 200 turns and diameter 2.0 cm carries a current of 5.0 A. It is placed in a magnetic field of with the plane of...
Consider the Helmholtz coil, in which two identical current loops carrying current ( I ) are...
Consider the Helmholtz coil, in which two identical current
loops carrying current ( I ) are placed
such that the resulting magnetic field is nearly constant in the
region between the loops.
a) Derive the optimal distance of separation
d of the loops (Hint: force the relevant
second derivative to vanish in the center).
b) Using that d, plot
the magnetic field in the region between the two coils, along the z
axis.
c) It is possible to create...
A set of "Helmholtz" coils is a pair of identical coils, each having radius a, N...
A set of "Helmholtz" coils is a pair of identical coils, each having radius a, N turns, and current I. They are positioned a distance a apart with the axis of each coil on the x-axis. Each coil is parallel to the y-z plane, as shown. The origin is halfway between the coils. a) Determine the magnetic field magnitude and direction at any position x on the x-axis. b) Graph this magnetic field magnitude as a function of x, for...
A circular coil with area A and N turns is free to rotateabout a diameter that...
A circular coil with area A and N turns is free to rotateabout
a diameter that coincides with the x-axis. Current I iscirculating
in the coil. There is a uniform magnetic field B in thepositive
y-direction. Calculate the magnitude and direction of thetorque τ
and the value of the potential energy U, as given inEq. 27.27 (U=-μ
x B = -μBcosφ), when the coil isoriented as shown in parts (a)
through (d).
A solenoid has a length of 25 cm, a diameter of 2.4 cm and 400 turns....
A solenoid has a length of 25 cm, a diameter of 2.4 cm and 400 turns. The solenoid carries a current of 3 A. Calculate: A. The magnetic field on the axis at the center of the solenoid. (5 pts) B. The magnetic flux through the solenoid assuming the magnetic field is uniform. (5 pts) C. The self-inductance of the solenoid. (5 pts) D. The magnetic energy stored in the solenoid if the current is increased to 4 A. (5...
a. A coil of wire with 209 circular turns of radius 3.10 cm is in a...
a. A coil of wire with 209 circular turns of radius 3.10 cm is in a uniform magnetic field along the axis of the coil. The coil has R = 41.5 Ω . At what rate, in teslas per second, must the magnetic field be changing to induce a current of 0.149 A in the coil? b. A closely wound rectangular coil of 90.0 turns has dimensions of 30.0 cm by 47.0 cm . The plane of the coil is...
A closely wound circular coil with a diameter of 4.10 cm has 520 turns and carries...
A closely wound circular coil with a diameter of 4.10 cm has 520 turns and carries a current of 0.420 A. (a) What is the magnitude of the magnetic field at the center of the coil? T (b) What is the magnitude of the magnetic field at a point on the axis of the coil 8.00 cm from its center? T
The orientation of small satellites is often controlled using torque from current-carrying coils in Earth's magnetic...
The orientation of small satellites is often controlled using torque from current-carrying coils in Earth's magnetic field. Suppose a multiturn coil has a cross-sectional area of 6.96 ✕ 10−4 m2, dissipates 0.300 W of electrical power from a 5.50 V power supply, and provides a magnetic moment of magnitude 0.0400 A · m2. (a) Find the coil current I (in A). A (b) Calculate the number of turns in the coil. turns (c) Calculate the maximum magnitude of torque (in...
Consider the Helmholtz coil, in which two identical current
loops carrying current ( I ) are placed
such that the resulting magnetic field is nearly constant in the
region between the loops.
a) Derive the optimal distance of separation
d of the loops (Hint: force the relevant
second derivative to vanish in the center).
b) Using that d, plot
the magnetic field in the region between the two coils, along the z
axis.
c) It is possible to create...
A set of "Helmholtz" coils is a pair of identical coils, each having radius a, N turns, and current I. They are positioned a distance a apart with the axis of each coil on the x-axis. Each coil is parallel to the y-z plane, as shown. The origin is halfway between the coils. a) Determine the magnetic field magnitude and direction at any position x on the x-axis. b) Graph this magnetic field magnitude as a function of x, for...
A circular coil with area A and N turns is free to rotateabout
a diameter that coincides with the x-axis. Current I iscirculating
in the coil. There is a uniform magnetic field B in thepositive
y-direction. Calculate the magnitude and direction of thetorque τ
and the value of the potential energy U, as given inEq. 27.27 (U=-μ
x B = -μBcosφ), when the coil isoriented as shown in parts (a)
through (d).
A solenoid has a length of 25 cm, a diameter of 2.4 cm and 400 turns. The solenoid carries a current of 3 A. Calculate: A. The magnetic field on the axis at the center of the solenoid. (5 pts) B. The magnetic flux through the solenoid assuming the magnetic field is uniform. (5 pts) C. The self-inductance of the solenoid. (5 pts) D. The magnetic energy stored in the solenoid if the current is increased to 4 A. (5...
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