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Current path shaped as shown in the figure produces a magnetic field of P, in the...
A current path shaped as shown in Figure produces a magnetic field at P, the center...
A current path shaped as shown in Figure produces a magnetic field at P, the center of the arc. If the arc subtends an angle of 27 degree and the radius of the arc is 0.3 m, what is the magnetic field vector (nt) if the current is 6 A? Provide your answer with one decimal place. x.y, and a directions are shown in the figure. Take Ho 41 x 10-7 TM/A Р
A current path shaped as shown in Figure produces a magnetic field at P, the center...
A current path shaped as shown in Figure produces a magnetic field at P, the center of the arc. If the arc subtends an angle of 9 - 11 degree and the radius of the arc is 0.5 m, what is the magnetic field vector (n) if the current is 4 A? Provide your answer with one decimal place. x.y, and z directions are shown in the figure. Take po = 411 x 10-7Tm/A х Z Р
VERY IMPORTANT A current path shaped as shown in Figure produces a magnetic field at the...
VERY IMPORTANT
A current path shaped as shown in Figure produces a magnetic field at the center of the arc. If the arc subtends an angle of 0-27 degree and the radius of the arc is 0.2 m, what is the magnetic field vector (nt) if the current is 6 A7 Provide your answer with one decimal place. xy, and z directions are shown in the figure. Take Po - 410-Tm/A De Р
Consider the current-carrying wire shown in the figure. The current creates a magnetic field at the...
Consider the current-carrying wire shown in the figure. The current creates a magnetic field at the point P, which is the center of the arc segment of the wire. If 0 = 20.0°, the radius of the arc is 0.700 m, and the current is 2.00 A, what are the magnitude (in nT) and direction of the field produced at P? P i magnitude 285.7 Apply the Biot-Savart law. What will be the contributions of the segments of wire along...
Q1. (40 points) The closed loop shown in the figure carries a current of 3.0 A...
Q1. (40 points) The closed loop shown in the figure carries a current of 3.0 A in the clockwise direction. The radius of the outer arc is 0.40 m and spans over an angle of 320°and radius of inner arc is 0.30 m and spans over an angle of 40°. Point P is at the center of both arcs. a) (10 points) Calculate the magnetic field vector at point P due to outer arc. b) (10 points) Calculate the magnetic...
A long wire is bent to form a 90 degree angle using a circular arc with...
A long wire is bent to form a 90 degree angle using a circular
arc with a radius r=2cm. The wire carries a current I=0.5A as
shown. Point P is located in the plane of the wire at the center of
the circular arc.
2. A long wire is bent to form a 90° angle using a circular arc with a radius R 2 cm. The wire carries a current I = 0.5 A as shown. Point P is located...
5.60 A current of I = 3 A runs through a wire path as shown. The...
5.60 A current of I = 3 A runs through a wire path as shown. The radius of the circular arc is r=4.0 cm and the angle of the arc is 60º. Determine the magnitude of the magnetic field at P. 2.0 x 10-61 4.5 x 10-41 7.9 x 10-61 8.9 x 10-61 9.9 x 10-61
1. An electron moves in a circular path in the magnetic field of an electromagnet. The...
1. An electron moves in a circular path in the magnetic field of an electromagnet. The plune of the electron's Sicular path is parallel to the smooth vole faces of the electromagnet. In the region where the electron is moving the magnetic field is uniform and has magnitude 0,50 T. The electron moves with a speed of 1.5 x 10 m/s. a. If someone could observe the electron from the north pole of the electromagnet, would the electron inove clockwise...
The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge...
The figure below displays a thin conducting loop shaped as an
equilateral triangle with the edge length
L=5.55 cm. It carries current
I=21 A.
What is the magnitude
BO of the magnetic
field produced by this current loop at point O in the center of the
triangle?:
BO= ______ G.
What is the magnitude
BP of the magnetic
field produced by this current loop at point P outside the triangle
as shown in the figure?:
BP= _______ G.
The figure...
The closed loop shown in the figure below carries a current of 14.5 A in the...
The closed loop shown in the figure below carries a current of 14.5 A in the counterclockwise direction The radius of the outer arc is 80 cm, that of the inner arc is 33 cm. Find the magnitude of the magnetic field at point P. 60° T Enter
A current path shaped as shown in Figure produces a magnetic field at P, the center of the arc. If the arc subtends an angle of 27 degree and the radius of the arc is 0.3 m, what is the magnetic field vector (nt) if the current is 6 A? Provide your answer with one decimal place. x.y, and a directions are shown in the figure. Take Ho 41 x 10-7 TM/A Р
A current path shaped as shown in Figure produces a magnetic field at P, the center of the arc. If the arc subtends an angle of 9 - 11 degree and the radius of the arc is 0.5 m, what is the magnetic field vector (n) if the current is 4 A? Provide your answer with one decimal place. x.y, and z directions are shown in the figure. Take po = 411 x 10-7Tm/A х Z Р
VERY IMPORTANT
A current path shaped as shown in Figure produces a magnetic field at the center of the arc. If the arc subtends an angle of 0-27 degree and the radius of the arc is 0.2 m, what is the magnetic field vector (nt) if the current is 6 A7 Provide your answer with one decimal place. xy, and z directions are shown in the figure. Take Po - 410-Tm/A De Р
Consider the current-carrying wire shown in the figure. The current creates a magnetic field at the point P, which is the center of the arc segment of the wire. If 0 = 20.0°, the radius of the arc is 0.700 m, and the current is 2.00 A, what are the magnitude (in nT) and direction of the field produced at P? P i magnitude 285.7 Apply the Biot-Savart law. What will be the contributions of the segments of wire along...
Q1. (40 points) The closed loop shown in the figure carries a current of 3.0 A in the clockwise direction. The radius of the outer arc is 0.40 m and spans over an angle of 320°and radius of inner arc is 0.30 m and spans over an angle of 40°. Point P is at the center of both arcs. a) (10 points) Calculate the magnetic field vector at point P due to outer arc. b) (10 points) Calculate the magnetic...
A long wire is bent to form a 90 degree angle using a circular
arc with a radius r=2cm. The wire carries a current I=0.5A as
shown. Point P is located in the plane of the wire at the center of
the circular arc.
2. A long wire is bent to form a 90° angle using a circular arc with a radius R 2 cm. The wire carries a current I = 0.5 A as shown. Point P is located...
5.60 A current of I = 3 A runs through a wire path as shown. The radius of the circular arc is r=4.0 cm and the angle of the arc is 60º. Determine the magnitude of the magnetic field at P. 2.0 x 10-61 4.5 x 10-41 7.9 x 10-61 8.9 x 10-61 9.9 x 10-61
1. An electron moves in a circular path in the magnetic field of an electromagnet. The plune of the electron's Sicular path is parallel to the smooth vole faces of the electromagnet. In the region where the electron is moving the magnetic field is uniform and has magnitude 0,50 T. The electron moves with a speed of 1.5 x 10 m/s. a. If someone could observe the electron from the north pole of the electromagnet, would the electron inove clockwise...
The figure below displays a thin conducting loop shaped as an
equilateral triangle with the edge length
L=5.55 cm. It carries current
I=21 A.
What is the magnitude
BO of the magnetic
field produced by this current loop at point O in the center of the
triangle?:
BO= ______ G.
What is the magnitude
BP of the magnetic
field produced by this current loop at point P outside the triangle
as shown in the figure?:
BP= _______ G.
The figure...
The closed loop shown in the figure below carries a current of 14.5 A in the counterclockwise direction The radius of the outer arc is 80 cm, that of the inner arc is 33 cm. Find the magnitude of the magnetic field at point P. 60° T Enter
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