A small part of a current loop consisting of a very, very large triangular conductor in the x-y plane is shown below, with the current i=39.30 A.
Calculate the magnitude of the B-field at point 'p'.
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A small part of a current loop consisting of a very, very large
triangular conductor in...
A small part of a current loop consisting of a very, very large triangular conductor in...
A small part of a current loop consisting of a very, very
large triangular conductor in the x-y plane is shown below, with
the current i=37.70 A.
Calculate the magnitude of the B-field at the point 'p'
oo AT&T 20:16 80%. Timer Notes Evaluate Feedback Print A small part of a current loop consisting of a very, very large triangular conductor the x-y ane is shown below, with the current i 37.70 A. 12 n 11 100 0 1 2...
A small part of a circuit consisting of a very very large triangle in the x-y...
A small part of a circuit consisting of a very very large triangle in the x-y plane is shown below. The electric current in the circuit is i = 41.3 A. y (cm) .. 1 2 3 4 8 9 10 11 12 5 6 7 x (cm) Calculate the magnitude of the B-field at point 'p'. 1.55E-6 T Submit Answer Incorrect. Tries 10/12 Previous Tries
A very small circular loop of radius a(a < λ/6π) and constant current 10 is symmetrically placed ...
A very small circular loop of radius a(a < λ/6π) and constant current 10 is symmetrically placed about the originatO and with the plane of its area parallel to the y-z plane. Find the (a) spherical E- and H-field components radiated by the loop in the far zone (b) directivity of the antenna
A very small circular loop of radius a(a
An infinitely long conductor carrying current is bent at a right angle as shown in Figure...
An infinitely long conductor carrying current is bent at a right angle as shown in Figure 1. Point Pis located a distance b from the corner of the wire. Only one section of this current contributes to the magnetic field at pt. P. Why? The general formula (derived from the Biot-Savart Law) for the magnitude of the magnetic field a distance a away from a thin, straight conductor is: B = f (sin 8, - sin 02) For this problem,...
The current in the triangular wire loop is I = 5.0 A, as shown in the...
The current in the triangular wire loop is I = 5.0 A, as shown in the figure. The loop is in a flat magnetic field B = (3.0T) (a) Calculate the magnetic moment of the current loop and, with it, calculate the torque affecting on the loop In what direction does this torque tend to turn the loop? (b) Calculate the magnetic forces affecting on the sides of the triangle and, with their help, calculate the magnetic torque. (Can you...
A current is set up in a wire loop consisting of a semicircle of radius 4.52...
A current is set up in a wire loop consisting of a semicircle of radius 4.52 cm, a smaller concentric semicircle, and two radial straight lengths, all in the same plane. Part (a) of the figure shows the arrangement but is not drawn to scale. The magnitude of the magnetic field produced at the center of curvature is 47.19 T. The smaller semicircle is then flipped over (rotated) until the loop is again entirely in the same plane (part (b)...
Matlab Please! A small, circular wire loop of radius a and constant current I works as...
Matlab Please!
A small, circular wire loop of radius a and constant current I works as a "magnetic dipole," having a north pole and a south pole as defined by the right hand rule as shown below. At a distance R a from the center of the loop, the magnetic flux density is given by 4R3 Let I 10 mA, a 0.1 cm, and plot the magnetic field in the y-z plane for -1 s y s 1,-1 s Z...
a conductor consists of a circular lūop of radius R the center of the loop magnitude...
a conductor consists of a circular lūop of radius R the center of the loop magnitude direction Select 30.0 cm and two long, straight sections as shown in the figure below. The wire lies in the plane of the screen and carries a current 1-3.40 A. Find the magnetic field at
4) A long straight wire carries current i = 2.0 A. A triangular loop (w =...
4) A long straight wire carries current i = 2.0 A. A triangular loop (w = 0.050 m and t = 0.100 m) also carries the same current and is located at distance x = 0.025 m from the straight wire as shown. Recall that the magnetic field due to a long straight wire is given by B Ho 21 4r where r is the perpendicular distance from the wire. Note: Ho/472 = 1 x 10-?T.m/A. a) Determine the magnitude...
A very long straight wire carrying an electric current is perpendicular to the x-y plane. The...
A very long straight wire carrying an electric current is
perpendicular to the x-y plane. The current has a value of 31.1 A
and is directed in the +z (out of the page). At point 'p', the
magnetic field B is represented by one of the
arrows.
1. Indicate the direction of the magnetic field at point 'p'.
2. Calculate the magnitude of the B-field at
'p'.
3. Calculate the y-component of the B-field at
'p'.
:wire 1p :: ?...
A small part of a current loop consisting of a very, very
large triangular conductor in the x-y plane is shown below, with
the current i=37.70 A.
Calculate the magnitude of the B-field at the point 'p'
oo AT&T 20:16 80%. Timer Notes Evaluate Feedback Print A small part of a current loop consisting of a very, very large triangular conductor the x-y ane is shown below, with the current i 37.70 A. 12 n 11 100 0 1 2...
A small part of a circuit consisting of a very very large triangle in the x-y plane is shown below. The electric current in the circuit is i = 41.3 A. y (cm) .. 1 2 3 4 8 9 10 11 12 5 6 7 x (cm) Calculate the magnitude of the B-field at point 'p'. 1.55E-6 T Submit Answer Incorrect. Tries 10/12 Previous Tries
A very small circular loop of radius a(a < λ/6π) and constant current 10 is symmetrically placed about the originatO and with the plane of its area parallel to the y-z plane. Find the (a) spherical E- and H-field components radiated by the loop in the far zone (b) directivity of the antenna
A very small circular loop of radius a(a
An infinitely long conductor carrying current is bent at a right angle as shown in Figure 1. Point Pis located a distance b from the corner of the wire. Only one section of this current contributes to the magnetic field at pt. P. Why? The general formula (derived from the Biot-Savart Law) for the magnitude of the magnetic field a distance a away from a thin, straight conductor is: B = f (sin 8, - sin 02) For this problem,...
The current in the triangular wire loop is I = 5.0 A, as shown in the figure. The loop is in a flat magnetic field B = (3.0T) (a) Calculate the magnetic moment of the current loop and, with it, calculate the torque affecting on the loop In what direction does this torque tend to turn the loop? (b) Calculate the magnetic forces affecting on the sides of the triangle and, with their help, calculate the magnetic torque. (Can you...
A current is set up in a wire loop consisting of a semicircle of radius 4.52 cm, a smaller concentric semicircle, and two radial straight lengths, all in the same plane. Part (a) of the figure shows the arrangement but is not drawn to scale. The magnitude of the magnetic field produced at the center of curvature is 47.19 T. The smaller semicircle is then flipped over (rotated) until the loop is again entirely in the same plane (part (b)...
Matlab Please!
A small, circular wire loop of radius a and constant current I works as a "magnetic dipole," having a north pole and a south pole as defined by the right hand rule as shown below. At a distance R a from the center of the loop, the magnetic flux density is given by 4R3 Let I 10 mA, a 0.1 cm, and plot the magnetic field in the y-z plane for -1 s y s 1,-1 s Z...
a conductor consists of a circular lūop of radius R the center of the loop magnitude direction Select 30.0 cm and two long, straight sections as shown in the figure below. The wire lies in the plane of the screen and carries a current 1-3.40 A. Find the magnetic field at
4) A long straight wire carries current i = 2.0 A. A triangular loop (w = 0.050 m and t = 0.100 m) also carries the same current and is located at distance x = 0.025 m from the straight wire as shown. Recall that the magnetic field due to a long straight wire is given by B Ho 21 4r where r is the perpendicular distance from the wire. Note: Ho/472 = 1 x 10-?T.m/A. a) Determine the magnitude...
A very long straight wire carrying an electric current is
perpendicular to the x-y plane. The current has a value of 31.1 A
and is directed in the +z (out of the page). At point 'p', the
magnetic field B is represented by one of the
arrows.
1. Indicate the direction of the magnetic field at point 'p'.
2. Calculate the magnitude of the B-field at
'p'.
3. Calculate the y-component of the B-field at
'p'.
:wire 1p :: ?...
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