The figure shows a portion of a silver ribbon with z_1 = 14.0 mm and y_1...
The
figure shows a portion of a silver ribbon with z_1 = 14.0 mm and
y_1 = 0.21 mm, carrying a current of 120 A in the + x-direction.
The ribbon lies in a uniform magnetic field, in the y-direction,
with magnitude 0.90 T. Apply the simplified model of the Hall
effect.
Homework Answers
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The
figure shows a portion of a silver ribbon with z_1 = 14.0 mm and
y_1...
The figure below shows a portion of a silver ribbon with z1 = 11.8 mm and...
The figure below shows a portion of a silver ribbon with
z1 = 11.8 mm and y1 = 0.23
mm, carrying a current of 102 A in the +x-direction. The
ribbon lies in a uniform magnetic field, in the
y-direction, with magnitude 1.09 T. Apply the simplified
model of the Hall effect presented in Section 27.9. They are 5.85
1028 free electron per cubic meter.
The figure below shows a portion of a silver ribbon with z1 11.8 mm and...
The figure (Figure 1) shows a portion of a silver ribbon with z1 = 12.0mm and...
The figure (Figure 1) shows a
portion of a silver ribbon with z1 = 12.0mm
and y1 = 0.23mm , carrying a current of 110A in the
+x-direction. The ribbon lies in a uniform
magnetic field, in the y-direction,
with magnitude 0.91T . Apply the simplified model of the Hall
effect.
Part A
If there are 5.75?1028 free electrons per cubic
meter, find the magnitude of the drift velocity of the electrons in
the x-direction.
Part B
Find the magnitude...
The figure (Figure 1) shows a portion of a silver ribbon with 21 = 11.0 mm...
The figure (Figure 1) shows a portion of a silver ribbon with 21 = 11.0 mm and y1 = 0.22 mm , carrying a current of 110 A in the to-direction. The ribbon lies in a uniform magnetic field, in the y-direction, with magnitude 0.90 T.Apply the simplified model of the Hall effect. Figure 1 of 1 Part A If there are 5.85x1028 free electrons per cubic meter, find the magnitude of the drift velocity of the electrons in the...
2) A very large number of very long wires are arranged to form a current-carrying “ribbon,"...
2) A very large number of very long wires are arranged to form a current-carrying “ribbon," as shown in the figure below. Each wire can be assumed to have negligible radius and carries the same current I (in the same direction). The ribbon is oriented in the xy-plane, at z =0. Hint: This problem has planar symmetry, so consider how you might apply Ampere's Law. Also note that this problem is equivalent to an infinite current-carrying sheet with surface a...
A long, straight wire lies along the y-axis and carries a current I = 11 A in the y-direction
A long, straight wire lies along the y-axis and carries a current I = 11 A in the y-direction (see figure. In addition to the magnetic field due to the current in the wire, a uniform magnetic field B0 with magnitude 1.3 x 10-6 T is in the +x-direction. What is the magnitude of the total field at point (c)x = 0, z= -0.21 m? (Give your answer in decimal using "microT" (micro Tesla) as unit )
[10]23 The figure shows a cross section of a long solid cylindrical conductor whose radius is...
[10]23 The figure shows a cross section of a long solid cylindrical conductor whose radius is 253 mm. The conductor carries a uniform current of 364 A. Using Ampere's Law, determine the magnetic field at a distance of 7.04 mm from the center Answer: Direction (Magnitude) 36,4 A
The figure shows a wire with a semicircle of radius 5 cm in between two wires...
The figure shows a wire with a semicircle of radius 5 cm in between two wires each of length 5 cm. A current of 5 A flows in the direction as shown. a. What is the magnitude and direction of the magnetic field at the center of the semicircle? b. Do the straight segments of the wire contribute to the magnetic field? Explain. c. If another segment of wire exactly the same as the wire in the first problem is...
A single, rectangular current-carrying wire is bent on two sides at 90° so that one end lies along the xy plane and the other lies along the xz plane as shown in the figure The length o fa= 1.00 cm
A single, rectangular current-carrying wire is bent on two sides at 90° so that one end lies along the xy plane and the other lies along the xz plane as shown in the figure The length of a= 1.00 cm, and the length of b = 14.0 cm. A current of I-480 amps flows through the loop in the direction shown by the arrows. If the wire is put into a uniform magnetic field of B- 2 50 Tesla oriented...
QUESTION # 01 Above figure shows a wire carrying a current in the presence of a...
QUESTION # 01 Above figure shows a wire carrying a current in the presence of a magnetic field. The magnetic flux density is 0.25 T, directed into the page. If the wire is 1.0 m long and carries 0.5 A of current in the direction from the top of the page to the bottom of the page, what is the magnitude and direction of the force induced on the wire?
QUESTION # 01 Above figure shows a wire carrying a current in the presence of a...
QUESTION # 01 Above figure shows a wire carrying a current in the presence of a magnetic field. The magnetic flux density is 0.25 T, directed into the page. If the wire is 1.0 m long and carries 0.5 A of current in the direction from the top of the page to the bottom of the page, what is the magnitude and direction of the force induced on the wire?
The figure below shows a portion of a silver ribbon with
z1 = 11.8 mm and y1 = 0.23
mm, carrying a current of 102 A in the +x-direction. The
ribbon lies in a uniform magnetic field, in the
y-direction, with magnitude 1.09 T. Apply the simplified
model of the Hall effect presented in Section 27.9. They are 5.85
1028 free electron per cubic meter.
The figure below shows a portion of a silver ribbon with z1 11.8 mm and...
The figure (Figure 1) shows a
portion of a silver ribbon with z1 = 12.0mm
and y1 = 0.23mm , carrying a current of 110A in the
+x-direction. The ribbon lies in a uniform
magnetic field, in the y-direction,
with magnitude 0.91T . Apply the simplified model of the Hall
effect.
Part A
If there are 5.75?1028 free electrons per cubic
meter, find the magnitude of the drift velocity of the electrons in
the x-direction.
Part B
Find the magnitude...
The figure (Figure 1) shows a portion of a silver ribbon with 21 = 11.0 mm and y1 = 0.22 mm , carrying a current of 110 A in the to-direction. The ribbon lies in a uniform magnetic field, in the y-direction, with magnitude 0.90 T.Apply the simplified model of the Hall effect. Figure 1 of 1 Part A If there are 5.85x1028 free electrons per cubic meter, find the magnitude of the drift velocity of the electrons in the...
2) A very large number of very long wires are arranged to form a current-carrying “ribbon," as shown in the figure below. Each wire can be assumed to have negligible radius and carries the same current I (in the same direction). The ribbon is oriented in the xy-plane, at z =0. Hint: This problem has planar symmetry, so consider how you might apply Ampere's Law. Also note that this problem is equivalent to an infinite current-carrying sheet with surface a...
[10]23 The figure shows a cross section of a long solid cylindrical conductor whose radius is 253 mm. The conductor carries a uniform current of 364 A. Using Ampere's Law, determine the magnetic field at a distance of 7.04 mm from the center Answer: Direction (Magnitude) 36,4 A
The figure shows a wire with a semicircle of radius 5 cm in between two wires each of length 5 cm. A current of 5 A flows in the direction as shown. a. What is the magnitude and direction of the magnetic field at the center of the semicircle? b. Do the straight segments of the wire contribute to the magnetic field? Explain. c. If another segment of wire exactly the same as the wire in the first problem is...
QUESTION # 01 Above figure shows a wire carrying a current in the presence of a magnetic field. The magnetic flux density is 0.25 T, directed into the page. If the wire is 1.0 m long and carries 0.5 A of current in the direction from the top of the page to the bottom of the page, what is the magnitude and direction of the force induced on the wire?
QUESTION # 01 Above figure shows a wire carrying a current in the presence of a magnetic field. The magnetic flux density is 0.25 T, directed into the page. If the wire is 1.0 m long and carries 0.5 A of current in the direction from the top of the page to the bottom of the page, what is the magnitude and direction of the force induced on the wire?
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