Homework Answers
Therefore magnetic field is 7.9 X 10-6 T. Hence 3rd option is correct.
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A current of - 3 A runs through a wire path as shown. The radius of...
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
A wire with a radius R = 2mm carries a current of 10 A. a) (10pts)...
A wire with a radius R = 2mm carries a current of 10 A. a) (10pts) Find the current enclosed (passing through) by a circular path of 0.5 mm radius b) (10pts) Find the current enclosed (passing through) by a circular path of 2.00 mm radius c) (10pts) Find the current enclosed (passing through) by a circular path of 4 mm radius d) (20pts) Based on your previous answers, find the magnitude of the magnetic field for r = 0.5mm,...
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...
PHY1520 Final Review Problems 1) The current density in a cylindrical wire of radius R = 3.0 mm is uniform across the cross section of the wire and is J = 3.0 × 106A/m2, (a) What is the current th...
PHY1520 Final Review Problems 1) The current density in a cylindrical wire of radius R = 3.0 mm is uniform across the cross section of the wire and is J = 3.0 × 106A/m2, (a) What is the current through the outer portion of the wire between radial distances R/2 and R (b) What is the current through the entire cross section of the wire? 2) A conducting loop of radius 1.50 cm and resistance 8 x 10-6Ω is perpendicular...
A uniform magnetic field passes through a horizontal circular wire loop at an angle 60° from...
A uniform magnetic field passes through a horizontal circular wire loop at an angle 60° from the normal to plane of the loop. The magnitude of the magnetic field is 3.0 T, and the radius of the wire loop is 10 cm. Find the magnetic flux through the loop.
The wire in the figure 5 carries a current i=16A, consists of and arc of radius...
The wire in the figure 5 carries a current i=16A, consists of and arc of radius R=15 cm and central angle =1.5p. and two straight wire of length 15 cm. The magnetic field at the center of the arc equals to : Activate Windows Set Question 1 of 10 Moving to another question will save this response
A circular loop is made from a piece of wire. When a current goes through the...
A circular loop is made from a piece of wire. When a current goes through the wire the magnitude of the magnetic field at the center of the loop is 7.50 x 10-5 T. If the radius of the loop is decreased from 7.63 cm to 3.66 cm, determine the new magnitude of the field at the center of the loop in (Tesla, T, mT) or Gauss (G)
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 40.0 cm has a current 0.700 A flowing through it. The magnetic field 3.70 T acts at an angle of 30.1° as shown in the picture. B. o 1 R Part A - Find the net torque acting on the wire. 0.176 Nm 17.6 Nm 0.653 Nm O 1.63x10-2 Nm
1. A straight vertical wire carries a current of 1.45 A downward in a region between...
1. A straight vertical wire carries a current of 1.45 A downward in a region between the poles of a large electromagnet where the field strength is 0.585 T and is horizontal. a. What are the magnitude of the magnetic force on a 1.00 cm section of this wire if the magnetic-field direction is toward the east? b. What are the magnitude of the magnetic force on a 1.00 cm section of this wire if the magnetic-field direction is toward...
The segment of wire in Figure P30.7 carries a current of I = 4.90 A, where...
The segment of wire in Figure P30.7 carries a current of I = 4.90 A, where the radius of the circular arc is R = 2.90 cm. Determine the magnitude and direction of the magnetic field at the origin. UT ---Direction--- Figure P30.7
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
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...
PHY1520 Final Review Problems 1) The current density in a cylindrical wire of radius R = 3.0 mm is uniform across the cross section of the wire and is J = 3.0 × 106A/m2, (a) What is the current through the outer portion of the wire between radial distances R/2 and R (b) What is the current through the entire cross section of the wire? 2) A conducting loop of radius 1.50 cm and resistance 8 x 10-6Ω is perpendicular...
The wire in the figure 5 carries a current i=16A, consists of and arc of radius R=15 cm and central angle =1.5p. and two straight wire of length 15 cm. The magnetic field at the center of the arc equals to : Activate Windows Set Question 1 of 10 Moving to another question will save this response
A circular conducting wire with a radius of 40.0 cm has a current 0.700 A flowing through it. The magnetic field 3.70 T acts at an angle of 30.1° as shown in the picture. B. o 1 R Part A - Find the net torque acting on the wire. 0.176 Nm 17.6 Nm 0.653 Nm O 1.63x10-2 Nm
The segment of wire in Figure P30.7 carries a current of I = 4.90 A, where the radius of the circular arc is R = 2.90 cm. Determine the magnitude and direction of the magnetic field at the origin. UT ---Direction--- Figure P30.7
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