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A long, straight wire of radius 10 cm carries a steady current l=10 A that is...
A long wire cylindrical conductor having a radius of 5.00*10^-2 m carries a current of 10.0...
A long wire cylindrical conductor having a radius of 5.00*10^-2
m carries a current of 10.0 A uniformly distributed over its
cross-section and directed out of the page in the figure below.
10.0 A (out of page) What is the magnitude of the magnetic field at a point inside the cylindrical conductor, a distance of 2.50x10"-m from its center? (A) 2.00x10 T (B) 4.00x10 T C) 6.00x10 T (D) 8.00x10 T E) 1.00x10 T
A very long, straight conductor located along the z axis has a circular cross section of radius 10 cm
5-15 Exercises: 5.16. A very long, straight conductor located along the z axis has a circular cross section of radius 10 cm. The conductor carries 100 A in the z direction which is uniformly distributed over its cross section. Find the magnetic field intensity (a) inside the conductor and (b) outside the conductor. Sketch the magnetic field intensity as a function of the distance from the center of the conductor. 5-15 Exercises: 5.18. A fine wire wound in the form of...
A wire of radius 0.7 cm carries a current of 101 A that is uniformly distributed...
A wire of radius 0.7 cm carries a current of 101 A that is uniformly distributed over its cross-sectional area. Find the magnetic field B at a distance of 0.09 cm from the center of the wire.
A cylindrical conductor of radius R = 2.60 cm carries a current of I = 2.00...
A cylindrical conductor of radius R = 2.60 cm carries a current of I = 2.00 A along its length. This current is uniformly distributed throughout the cross section of the conductor. (a) Calculate the magnitude of the magnetic field midway along the radius of the wire (that is, at r = R/2). ________µT (b) Find the distance beyond the surface of the conductor at which the magnitude of the magnetic field has the same value as the magnitude of...
In the figure below, a long circular pipe with outside radius R2.42 cm carries a (uniformly distr...
In the figure below, a long circular pipe with outside radius R2.42 cm carries a (uniformly distributed) current i 11.3 mA into the page. A wire runs parallel to the pipe at a distance of 3.00R from center to center. Find the (a) magnitude and (b) direction (into or out of the page) of the current in the wire such that the ratio of the magnitude of the net magnetic field at point P to the magnitude of the net...
An infinitely long, straight conductor with a circular cross-section of radius b carries a steady current I. (a) Determine the magnetic flux density (B) both inside and outside the conductor. (b) Det...
An infinitely long, straight conductor with a circular cross-section of radius b carries a steady current I. (a) Determine the magnetic flux density (B) both inside and outside the conductor. (b) Determine the vector magnetic potential (A) both inside and outside the conductor from the relationship B V x A
An infinitely long, straight conductor with a circular cross-section of radius b carries a steady current I. (a) Determine the magnetic flux density (B) both inside and outside the conductor....
In the figure below, a long circular pipe with outside radius R = 2.73 cm carries...
In the figure below, a long
circular pipe with outside radius R = 2.73 cm carries a (uniformly
distributed) current i = 12.7 mA into the page. A wire runs
parallel to the pipe at a distance of 3.00R from center to center.
Find the (a) magnitude and (b) direction (into or out of the page)
of the current in the wire such that the ratio of the magnitude of
the net magnetic field at point P to the magnitude...
In the figure below, a long circular pipe with outside radius R = 2.76 cm carries...
In the figure below, a long circular pipe with outside radius
R = 2.76 cm carries a (uniformly distributed) current
i = 10.3 mA into the page. A wire runs parallel to the
pipe at a distance of 3.00R from center to center. Find
the (a) magnitude and (b)
direction (into or out of the page) of the current in the wire such
that the ratio of the magnitude of the net magnetic field at point
P to the magnitude...
Q4. (25 points) A long straight wire carries a current of 11 = 8 A is...
Q4. (25 points) A long straight wire carries a current of 11 = 8 A is at perpendicular distance d = 6 cm from a point P. The point P is at the center of a semicircle of radius R = 12 cm, and carries a current 12 = 17 A in the clockwise direction. a) (8 points) Find the magnetic field vector at point P due to the current 11 in the wire. b) (8 points) Find the magnetic...
An infinitely long, straight, cylindrical wire of radius R carries a uniform current density J. Using...
An infinitely long, straight, cylindrical wire of radius R carries a uniform current density J. Using symmetry and Ampere's law, find the magnitude and direction of the magnetic field at a point inside the wire. For the purposes of this problem, use a cylindrical coordinate system with the current in the +z-direction, as shown coming out of the screen in the top illustration. The radial r-coordinate of each point is the distance to the central axis of the wire, and...
A long wire cylindrical conductor having a radius of 5.00*10^-2
m carries a current of 10.0 A uniformly distributed over its
cross-section and directed out of the page in the figure below.
10.0 A (out of page) What is the magnitude of the magnetic field at a point inside the cylindrical conductor, a distance of 2.50x10"-m from its center? (A) 2.00x10 T (B) 4.00x10 T C) 6.00x10 T (D) 8.00x10 T E) 1.00x10 T
In the figure below, a long circular pipe with outside radius R2.42 cm carries a (uniformly distributed) current i 11.3 mA into the page. A wire runs parallel to the pipe at a distance of 3.00R from center to center. Find the (a) magnitude and (b) direction (into or out of the page) of the current in the wire such that the ratio of the magnitude of the net magnetic field at point P to the magnitude of the net...
An infinitely long, straight conductor with a circular cross-section of radius b carries a steady current I. (a) Determine the magnetic flux density (B) both inside and outside the conductor. (b) Determine the vector magnetic potential (A) both inside and outside the conductor from the relationship B V x A
An infinitely long, straight conductor with a circular cross-section of radius b carries a steady current I. (a) Determine the magnetic flux density (B) both inside and outside the conductor....
In the figure below, a long
circular pipe with outside radius R = 2.73 cm carries a (uniformly
distributed) current i = 12.7 mA into the page. A wire runs
parallel to the pipe at a distance of 3.00R from center to center.
Find the (a) magnitude and (b) direction (into or out of the page)
of the current in the wire such that the ratio of the magnitude of
the net magnetic field at point P to the magnitude...
In the figure below, a long circular pipe with outside radius
R = 2.76 cm carries a (uniformly distributed) current
i = 10.3 mA into the page. A wire runs parallel to the
pipe at a distance of 3.00R from center to center. Find
the (a) magnitude and (b)
direction (into or out of the page) of the current in the wire such
that the ratio of the magnitude of the net magnetic field at point
P to the magnitude...
Q4. (25 points) A long straight wire carries a current of 11 = 8 A is at perpendicular distance d = 6 cm from a point P. The point P is at the center of a semicircle of radius R = 12 cm, and carries a current 12 = 17 A in the clockwise direction. a) (8 points) Find the magnetic field vector at point P due to the current 11 in the wire. b) (8 points) Find the magnetic...
An infinitely long, straight, cylindrical wire of radius R carries a uniform current density J. Using symmetry and Ampere's law, find the magnitude and direction of the magnetic field at a point inside the wire. For the purposes of this problem, use a cylindrical coordinate system with the current in the +z-direction, as shown coming out of the screen in the top illustration. The radial r-coordinate of each point is the distance to the central axis of the wire, and...
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