Find the magnetic force vector on a 2 m segment of straight wire carrying a current...
Find the magnetic force vector on a 2 m segment of straight wire carrying a current of 1/2 A in the z-direction through a uniform magnetic field of 80 mT going in the x-direction.
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Find the magnetic force vector on a 2 m segment of straight wire
carrying a current...
A straight copper wire lies along the x-axis and has current of I = 14.5 A...
A straight copper wire lies along the x-axis and has current of I = 14.5 A running through it in the +x-direction. The wire is in the presence of a uniform magnetic field, perpendicular to the current. There is a magnetic force per unit length on the wire of 0.130 N/m in the −y-direction. (a) What is the magnitude of the magnetic field (in mT) in the region through which the current passes? mT (b) What is the direction of...
The size of the magnetic force on a straight wire of length L carrying current I...
The size of the magnetic force on a straight wire of length
L carrying current I in a uniform magnetic field
with strength B is
F=ILBsin(?).
Here ? is the angle between the direction of the
current (along the wire) and the direction of the magnetic field.
Hence Bsin(?) refers to the component of the
magnetic field that is perpendicular to the wire, B?. Thus
this equation can also be written as
F=ILB?.
The direction of the magnetic force on...
The semicircular wire segment with radius a is carrying current I, and is placed in the...
The semicircular wire segment with radius a is carrying current I, and is placed in the x - y plane as shown. The wire is inside a uniform magnetic field B = Boi. Find the magnitude and the direction of the to- tal magnetic force acting on the wire segment. +x (HINT: Consider an infinitesimal arc segment ds on the wire to start with.)
(Magnetic Force on a Wire) A horizontal, current-carrying wire of mass m = 40.0 g is...
(Magnetic Force on a Wire) A horizontal,
current-carrying wire of mass m = 40.0 g is free to slide without
friction along two vertical conducting rails spaced l = 80.0 cm
apart as in Figure. A uniform magnetic field of B = 1.20 T is
directed into the plane of the drawing. What magnitude and
direction (to the right or to the left) must the current have if
the force exerted by the magnetic field on the wire is just...
1. The diagram below shows the deflection of a current carrying wire segment in a constant...
1. The diagram below shows the deflection of a current carrying wire segment in a constant magnetic field B pointing into the page (the wire segment is held fixed at its end points.) (a) Which direction does the current flow? Which direction do the electrons flow in the wire? (b) What is the direction of the Lorentz (magnetic) force acting on the electrons? (c) If the wire segment is 1 m long, the current through it is 1 A, and...
A wire carrying a current of 2.60 A has a straight segment of 2.35 m. Determine...
A wire carrying a current of 2.60 A has a straight segment of 2.35 m. Determine the magnitude of the magnetic field due to this segment of wire at a point P which is at the end of the straight segment of wire and a distance of 2.66 m perpendicular to the wire.
A straight copper wire lies along the x-axis and has current of I=15.6 A running through it in the +x-direction
A straight copper wire lies along the x-axis and has current of I=15.6 A running through it in the +x-direction. The wire is in the presence of a uniform magnetic field, perpendicular to the current. There is a magnetic force per unit length on the wire of 0.117 N / m in the -y-direction.(a) What is the magnitude of the magnetic field (in mT ) in the region through which the current passes?(b) What is the direction of the magnetic...
Within a uniform magnetic field B, a straight wire is carrying current in the direction shown...
Within a uniform magnetic field B, a straight wire is carrying current in the direction shown in this figure. The direction of this uniform magnetic field is denoted by the blue dots. (Think about what these dots means. This was taught in my lectures.) B. What is the direction of the magnetic force acting on this current-carrying wire? The magnetic force points: A to the right: B. out of the page; C. Into the page: D. to the left; O...
The magnetic force exerted on a 1.3-m segment of straight wire is 1.4 N. The wire...
The magnetic force exerted on a 1.3-m segment of straight wire is 1.4 N. The wire carries a current of 3.2 A in a region with a constant magnetic field of .49 T. 1. What is the angle between the wire and the magnetic field?
27. A 2.0-m wire segment carrying a current of 0.60 A oriented parallel to a uniform...
27. A 2.0-m wire segment carrying a current of 0.60 A oriented parallel to a uniform magnetic field of 0.25 T experiences a force of what magnitude? a. 0.30 N b. 6.7 N c. 0.15 N d. zero 28. A horizontal wire of length 3.6 m carries a current of 6.0 A and is oriented so that the current direction is 50-S of W. The Earth's magnetic field is due north at this point and has a strength of 0.14...
The size of the magnetic force on a straight wire of length
L carrying current I in a uniform magnetic field
with strength B is
F=ILBsin(?).
Here ? is the angle between the direction of the
current (along the wire) and the direction of the magnetic field.
Hence Bsin(?) refers to the component of the
magnetic field that is perpendicular to the wire, B?. Thus
this equation can also be written as
F=ILB?.
The direction of the magnetic force on...
The semicircular wire segment with radius a is carrying current I, and is placed in the x - y plane as shown. The wire is inside a uniform magnetic field B = Boi. Find the magnitude and the direction of the to- tal magnetic force acting on the wire segment. +x (HINT: Consider an infinitesimal arc segment ds on the wire to start with.)
(Magnetic Force on a Wire) A horizontal,
current-carrying wire of mass m = 40.0 g is free to slide without
friction along two vertical conducting rails spaced l = 80.0 cm
apart as in Figure. A uniform magnetic field of B = 1.20 T is
directed into the plane of the drawing. What magnitude and
direction (to the right or to the left) must the current have if
the force exerted by the magnetic field on the wire is just...
1. The diagram below shows the deflection of a current carrying wire segment in a constant magnetic field B pointing into the page (the wire segment is held fixed at its end points.) (a) Which direction does the current flow? Which direction do the electrons flow in the wire? (b) What is the direction of the Lorentz (magnetic) force acting on the electrons? (c) If the wire segment is 1 m long, the current through it is 1 A, and...
Within a uniform magnetic field B, a straight wire is carrying current in the direction shown in this figure. The direction of this uniform magnetic field is denoted by the blue dots. (Think about what these dots means. This was taught in my lectures.) B. What is the direction of the magnetic force acting on this current-carrying wire? The magnetic force points: A to the right: B. out of the page; C. Into the page: D. to the left; O...
27. A 2.0-m wire segment carrying a current of 0.60 A oriented parallel to a uniform magnetic field of 0.25 T experiences a force of what magnitude? a. 0.30 N b. 6.7 N c. 0.15 N d. zero 28. A horizontal wire of length 3.6 m carries a current of 6.0 A and is oriented so that the current direction is 50-S of W. The Earth's magnetic field is due north at this point and has a strength of 0.14...
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