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(1 point) P 3 cm Two long wires are parallel to the z axis and are located at x = 0, y = ta. Take a = I2 = 6 A a) Find...
(1 point) Two long wires are parallel to the z axis and are located at x...
(1 point) Two long wires are parallel to the z axis and are located at x = 0, y = +a. Take a = 9 cm. a) Find B at point P with b = 10 cm, given that the wires carry equal currents in opposite direction I = 12 = 7A. B =( јт b) At what point is B equal to 45 % of the magnitude of the magnetic field at origin (0,0,0)? (Hint, find the magentic field...
Two long, parallel wires carry currents of I1 = 2.85 A and I2 = 5.45 A...
Two long, parallel wires carry currents of I1 = 2.85 A and I2 =
5.45 A in the directions indicated in the figure below, where d =
19.5 cm. (Take the positive x direction to be to the right.)
(a) Find the magnitude and direction of the magnetic field at a
point midway between the wires.
magnitude______ μT
direction________ ° counterclockwise from the +x axis
(b) Find the magnitude and direction of the magnetic field at
point P, located d =...
Two parallel long (infinite for our purposes) wires are oriented along the z-axis. The figure below...
Two parallel long (infinite for our purposes) wires are oriented
along the z-axis. The figure below shows the
(xy)-plane perpendicular to the wires, including
the positions where the wires cross this plane. The wires carry
some unknown electric currents I1 and
I2, which you need to find from a
single measurement of the magnetic field
B=Bxi
+
Byj
at point A, whose position in the plane is also indicated. We will
treat the currents algebraically: the current I
is positive...
Two parallel long (infinite for our purposes) wires are oriented along the z-axis. The figure below...
Two parallel long (infinite for our purposes) wires are oriented
along the z-axis. The figure below shows the
(xy)-plane perpendicular to the wires, including
the positions where the wires cross this plane. The wires carry
some unknown electric currents I1 and
I2, which you need to find from a
single measurement of the magnetic field
B=Bxi
+
Byj
at point A, whose position in the plane is also indicated. We will
treat the currents algebraically: the current I
is positive...
Two parallel long (infinite for our purposes) wires are oriented along the z-axis. The figure below...
Two parallel long (infinite for our purposes) wires are oriented
along the z-axis. The figure below shows the
(xy)-plane perpendicular to the wires, including
the positions where the wires cross this plane. The wires carry
some unknown electric currents I1 and
I2, which you need to find from a
single measurement of the magnetic field
B=Bxi
+
Byj
at point A, whose position in the plane is also indicated. We will
treat the currents algebraically: the current I
is positive...
Two parallel long (infinite for our purposes) wires are oriented along the z-axis. The figure below...
Two parallel long (infinite for our purposes) wires are oriented
along the z-axis. The figure below shows the
(xy)-plane perpendicular to the wires, including
the positions where the wires cross this plane. The wires carry
some unknown electric currents I1 and
I2, which you need to find from a
single measurement of the magnetic field
B=Bxi
+
Byj
at point A, whose position in the plane is also indicated. We will
treat the currents algebraically: the current I
is positive...
Two long, parallel wires carry currents of I1 = 4.80 A and I2 = 1.80 A...
Two long, parallel wires carry currents of I1 = 4.80
A and I2 = 1.80 A in opposite directions (see figure
below). The wire 1 is placed at y = + 2.80 cm and wire 2 is at y =
- 2.80 cm. Find the location on y-axis where the net magnetic field
due to these two current carrying wires is zero. ** my answer was
wrong and I can't figure out how to correctly solve this**
Two long, parallel...
Two parallel long (infinite for our purposes) wires are oriented along the z-axis. The figure below...
Two parallel long (infinite for our purposes) wires are oriented along the z-axis. The figure below shows the (xy)-plane perpendicular to the wires, including the positions where the wires cross this plane. The wires carry some unknown electric currents 11 and 12, which you need to find from a single measurement of the magnetic field B=By i + By j at point A, whose position in the plane is also indicated. We will treat the currents algebraically: the current I...
Two parallel long (infinite for our purposes) wires are oriented along the z-axis. The figure below...
Two parallel long (infinite for our purposes) wires are oriented along the z-axis. The figure below shows the (xy)-plane perpendicular to the wires, including the positions where the wires cross this plane. The wires carry some unknown electric currents 11 and 12, which you need to find from a single measurement of the magnetic field B=Bx i + By j at point A, whose position in the plane is also indicated. We will treat the currents algebraically: the current I...
As shown in the figure below, two long parallel wires (1 and 2) carry currents of...
As shown in the figure below, two long parallel wires (1 and 2)
carry currents of I1 = 3.10 A and
I2 = 5.10 A in the direction indicated.
(a) Determine the magnitude and direction of the magnetic field
at a point midway between the wires (d = 10.0 cm).
(b) Determine the magnitude and direction of the magnetic field
at point P, located d = 10.0 cm above wire 1.
(1 point) Two long wires are parallel to the z axis and are located at x = 0, y = +a. Take a = 9 cm. a) Find B at point P with b = 10 cm, given that the wires carry equal currents in opposite direction I = 12 = 7A. B =( јт b) At what point is B equal to 45 % of the magnitude of the magnetic field at origin (0,0,0)? (Hint, find the magentic field...
Two long, parallel wires carry currents of I1 = 2.85 A and I2 =
5.45 A in the directions indicated in the figure below, where d =
19.5 cm. (Take the positive x direction to be to the right.)
(a) Find the magnitude and direction of the magnetic field at a
point midway between the wires.
magnitude______ μT
direction________ ° counterclockwise from the +x axis
(b) Find the magnitude and direction of the magnetic field at
point P, located d =...
Two parallel long (infinite for our purposes) wires are oriented
along the z-axis. The figure below shows the
(xy)-plane perpendicular to the wires, including
the positions where the wires cross this plane. The wires carry
some unknown electric currents I1 and
I2, which you need to find from a
single measurement of the magnetic field
B=Bxi
+
Byj
at point A, whose position in the plane is also indicated. We will
treat the currents algebraically: the current I
is positive...
Two parallel long (infinite for our purposes) wires are oriented
along the z-axis. The figure below shows the
(xy)-plane perpendicular to the wires, including
the positions where the wires cross this plane. The wires carry
some unknown electric currents I1 and
I2, which you need to find from a
single measurement of the magnetic field
B=Bxi
+
Byj
at point A, whose position in the plane is also indicated. We will
treat the currents algebraically: the current I
is positive...
Two parallel long (infinite for our purposes) wires are oriented
along the z-axis. The figure below shows the
(xy)-plane perpendicular to the wires, including
the positions where the wires cross this plane. The wires carry
some unknown electric currents I1 and
I2, which you need to find from a
single measurement of the magnetic field
B=Bxi
+
Byj
at point A, whose position in the plane is also indicated. We will
treat the currents algebraically: the current I
is positive...
Two parallel long (infinite for our purposes) wires are oriented
along the z-axis. The figure below shows the
(xy)-plane perpendicular to the wires, including
the positions where the wires cross this plane. The wires carry
some unknown electric currents I1 and
I2, which you need to find from a
single measurement of the magnetic field
B=Bxi
+
Byj
at point A, whose position in the plane is also indicated. We will
treat the currents algebraically: the current I
is positive...
Two long, parallel wires carry currents of I1 = 4.80
A and I2 = 1.80 A in opposite directions (see figure
below). The wire 1 is placed at y = + 2.80 cm and wire 2 is at y =
- 2.80 cm. Find the location on y-axis where the net magnetic field
due to these two current carrying wires is zero. ** my answer was
wrong and I can't figure out how to correctly solve this**
Two long, parallel...
Two parallel long (infinite for our purposes) wires are oriented along the z-axis. The figure below shows the (xy)-plane perpendicular to the wires, including the positions where the wires cross this plane. The wires carry some unknown electric currents 11 and 12, which you need to find from a single measurement of the magnetic field B=By i + By j at point A, whose position in the plane is also indicated. We will treat the currents algebraically: the current I...
Two parallel long (infinite for our purposes) wires are oriented along the z-axis. The figure below shows the (xy)-plane perpendicular to the wires, including the positions where the wires cross this plane. The wires carry some unknown electric currents 11 and 12, which you need to find from a single measurement of the magnetic field B=Bx i + By j at point A, whose position in the plane is also indicated. We will treat the currents algebraically: the current I...
As shown in the figure below, two long parallel wires (1 and 2)
carry currents of I1 = 3.10 A and
I2 = 5.10 A in the direction indicated.
(a) Determine the magnitude and direction of the magnetic field
at a point midway between the wires (d = 10.0 cm).
(b) Determine the magnitude and direction of the magnetic field
at point P, located d = 10.0 cm above wire 1.
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