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A circular conducting wire with a radius of 40.0 cm has a current 0.700 A flowing...
A circular conducting wire with a radius of 40 cm hee current 0.700 A nowing through....
A circular conducting wire with a radius of 40 cm hee current 0.700 A nowing through. The magnetled 3.70 T test an angle of 30.1" as shown in the picture Part A Find the net torque acting on the wire O 0.178 Nm 17,6 Nm 0.0 Nm 1.60 10-N 6530 Nm Submit Best Answer MacBook Air
A circular conducting wire with a radius of 25.0 cm has a current 0.680 A flowing...
A circular conducting wire with a radius of 25.0 cm has a current 0.680 A flowing through it. The magnetic field 6.25 T acts at an angle of 25.9° as shown in the picture. B R - Part A - Find the net torque acting on the wire. 0 1,46x10-2 Nm 0 5.83 Nm 0 5.83x10-2 Nm 0 0.365 Nm 0 3650 Nm
A circular coil consisting of a single loop of wire has a radius of 8.28 cm...
A circular coil consisting of a single loop of wire has a radius of 8.28 cm and carries a current of 9.16 A. It is placed in a uniform external magnetic field, so that the normal to the loop makes an angle of θ = 80.4° with the direction of the field. If the coil feels a torque of 1.39×10−2 Nm, what is the magnitude of the magnetic field?
A current carrying circular wire has a radius of 4.0 cm. This circular wire placed in...
A current carrying circular wire has a radius of 4.0 cm. This circular wire placed in a magnetic field of 4.8 mt. If the current is 3.4 A, calculate the maximum torque. 5 Am 12.1 a. T Select one: 4.2x10 b. 2.2x10 A. m2.1 C.8.2x10 Am d. 6.2x10. m2.1 2 T
A circular loop of wire, with radius 22 cm and carrying a current of 0.30 A,...
A circular loop of wire, with radius 22 cm and carrying a current of 0.30 A, lies perpendicular to a magnetic field of 2.3*10^-3 T. (a) What is the torque on the current loop? (b) What is the energy of the loop in the magnetic field?
Problem 21.05 A coil of wire with 203 circular turns of radius 3.10 cm is in...
Problem 21.05 A coil of wire with 203 circular turns of radius 3.10 cm is in a uniform magnetic field along the axis of the coil. The coil has R 40.0
A flat circular loop of wire of radius R carrying a current I is placed in...
A flat circular loop of wire of radius R carrying a current I is placed in a uniform magnetic field B that is directed in the plane of the current loop. What is the magnetic moment M of the loop? What is the magnitude of the torque acting on the loop? In which direction the loop will rotate under the influence of this torque?
. . Axis 1. A circular conducting coil with radius 3.66 cm is placed in a...
. . Axis 1. A circular conducting coil with radius 3.66 cm is placed in a uniform magnetic field of 2.4 T with the plane of the coil perpendicular to the magnetic field. The coil is rotated 50° about the axis in 0.52 s. If the resistance of the wire loop is 57 12, what current flows through the coil?
A circular loop of wire with a radius of 15 cm lies in the xy plane...
A circular loop of wire with a radius of 15 cm lies in the xy plane and carries a current of 1.9 A, counterclockwise. It is placed in an external magnetic field of the form B = 4ị mt. Z y The magnitude and direction of the net torque are: Select one: O a. 47.75 E-3 Nm, -x direction b. 47.75 E-3 Nm, +x direction O c. 47.75 E-3 Nm, +z direction O d. 310.39 E-3 Nm, +x direction e....
A circular loop of wire with a radius of 15 cm lies in the xy plane...
A circular loop of wire with a radius of 15 cm lies in the xy plane and carries a current of 1.9 A, counterclockwise. It is placed in an external magnetic field of the form B = 4; mt. -X · The magnitude and direction of the net torque are: Select one O a 0.54 E-3 Nm, - direction Ob.5372.14 E 3 Nm, 4x direction O c.0.54 E-3 Nm, +x direction O d. 0.54 E-3 Nm, z direction e. 5372.14...
A circular conducting wire with a radius of 40 cm hee current 0.700 A nowing through. The magnetled 3.70 T test an angle of 30.1" as shown in the picture Part A Find the net torque acting on the wire O 0.178 Nm 17,6 Nm 0.0 Nm 1.60 10-N 6530 Nm Submit Best Answer MacBook Air
A circular conducting wire with a radius of 25.0 cm has a current 0.680 A flowing through it. The magnetic field 6.25 T acts at an angle of 25.9° as shown in the picture. B R - Part A - Find the net torque acting on the wire. 0 1,46x10-2 Nm 0 5.83 Nm 0 5.83x10-2 Nm 0 0.365 Nm 0 3650 Nm
A current carrying circular wire has a radius of 4.0 cm. This circular wire placed in a magnetic field of 4.8 mt. If the current is 3.4 A, calculate the maximum torque. 5 Am 12.1 a. T Select one: 4.2x10 b. 2.2x10 A. m2.1 C.8.2x10 Am d. 6.2x10. m2.1 2 T
Problem 21.05 A coil of wire with 203 circular turns of radius 3.10 cm is in a uniform magnetic field along the axis of the coil. The coil has R 40.0
A flat circular loop of wire of radius R carrying a current I is placed in a uniform magnetic field B that is directed in the plane of the current loop. What is the magnetic moment M of the loop? What is the magnitude of the torque acting on the loop? In which direction the loop will rotate under the influence of this torque?
. . Axis 1. A circular conducting coil with radius 3.66 cm is placed in a uniform magnetic field of 2.4 T with the plane of the coil perpendicular to the magnetic field. The coil is rotated 50° about the axis in 0.52 s. If the resistance of the wire loop is 57 12, what current flows through the coil?
A circular loop of wire with a radius of 15 cm lies in the xy plane and carries a current of 1.9 A, counterclockwise. It is placed in an external magnetic field of the form B = 4ị mt. Z y The magnitude and direction of the net torque are: Select one: O a. 47.75 E-3 Nm, -x direction b. 47.75 E-3 Nm, +x direction O c. 47.75 E-3 Nm, +z direction O d. 310.39 E-3 Nm, +x direction e....
A circular loop of wire with a radius of 15 cm lies in the xy plane and carries a current of 1.9 A, counterclockwise. It is placed in an external magnetic field of the form B = 4; mt. -X · The magnitude and direction of the net torque are: Select one O a 0.54 E-3 Nm, - direction Ob.5372.14 E 3 Nm, 4x direction O c.0.54 E-3 Nm, +x direction O d. 0.54 E-3 Nm, z direction e. 5372.14...
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