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Consider the seven current-carrying wires and the four closed paths shown in the figure. For each...
The figure shows three long, parallel, current-carrying wires perpendicular to the page. In the picture, the...
The figure shows three long, parallel, current-carrying wires
perpendicular to the page. In the picture, the current directions
are indicated for I1 and I3. The three currents have equal
magnitudes. The direction of the current I2 is INTO the page.
Determine the direction of the net force acting on the wire I3 due
to the presence of the other two wires. Group of answer choices
left
right
Up
down
The figure shows three long, parallel, current-carrying wires perpendicular to the...
The figure shows three long, parallel, current-carrying wires. The current directions are indicated for currents I1...
The figure shows three long, parallel, current-carrying wires.
The current directions are indicated for currents
I1 and I3. The three
currents have equal magnitudes. In the space provided below write
the direction of the currentI2 ( it
could be INTO the page or OUT of the page, it is your choice!).
Then, accordingly to your selection of
I2 , write the direction of the net
force acting on the wire I3 due to the
presence of the other two wires....
For the system of four capacitors shown in the figure below, find the following. (Use C1...
For the system of four capacitors shown in the figure below, find the following. (Use C1 = 4.00 µF, C2 = 1.00 µF, C3 = 5.00 µF, and C4 = 3.00 µF for the figure.) A circuit consists of a 90.0 V battery and four capacitors. The wire begins at the positive terminal of the battery and splits into two parallel branches before reconnecting and then ending at the negative terminal of the battery. Each branch contains two capacitors in...
Three parallel current-carrying wires are shown in the figure below. The currents in each wire are...
Three parallel current-carrying
wires are shown in the figure below. The currents in each wire are
I1 = 0.460 A, I2 = 0.710 A, and I3 = 0.260 A. If the wires are
separated by distances r1 = 0.185 m and r2 = 0.290 m, find the net
magnetic force per unit length on the middle wire due to the other
wires. (Express your answer in vector form.)
Consider two current-carrying wires, separated by a distance d =2.1 cm, as shown in the figure.
Consider two current-carrying wires, separated by a distance d =2.1 cm, as shown in the figure. The left wire is directed out of the page with current I1, and the right wire is directed into the page with current I2. The point P is a distance d from both wires, so the wires and the point form an equilateral triangle.Part (a) If both wires are carrying a current of 4.5 A, what is the magnitude of the magnetic field, in tesla,...
A The figure shows four current-carrying wires that are perpendicular to the page, where I1 =...
A The figure shows four current-carrying wires that are perpendicular to the page, where I1 = 1.2 A, 12 = 2.4 A, 13 = 3.6 A, and 14 = 4.2 A. Four Ampèrian loops are also shown. Find the current through each loop. (Indicate the direction with the sign of your answer.) Ithru, A = Ithru, 8 = Ithru, c = Ithru, D = A A A Loop A 13 o Loop D Loop C dł 120 Loop B dé
The figure below shows two parallel wires (#1 and #2) separated by a distance d and...
The figure below shows two parallel wires (#1 and #2) separated by a distance d and carrying currents 1 and 21 respectively in opposite directions. It also shows three points (P1, P2, and P3) where we wish to determine the magnetic field (magnitude and direction). Let's define a unit of magnetic field as fol, and use standard sign convention, namely into the page is negative and out of the page is 2nd positive. Determine the magnetic field at the following...
The picture below shows a cross-sectional view through three long straight current-carrying wires, which are each...
The picture below shows a cross-sectional view through three
long straight current-carrying wires, which are each carrying
current perpendicular to the page (or the screen). In this problem,
use these values:
the distance: a = 60.0 cm;
the current: I = 3.50 amps.
(a) Calculate the net force per unit length acting on the wire
that carries a current of 3I out of the page,
at x = +2a.
(b) Calculate the net magnetic field at x =
+a. Use a...
The figure shows three long, parallel, current-carrying wires
perpendicular to the page. In the picture, the current directions
are indicated for I1 and I3. The three currents have equal
magnitudes. The direction of the current I2 is INTO the page.
Determine the direction of the net force acting on the wire I3 due
to the presence of the other two wires. Group of answer choices
left
right
Up
down
The figure shows three long, parallel, current-carrying wires perpendicular to the...
The figure shows three long, parallel, current-carrying wires.
The current directions are indicated for currents
I1 and I3. The three
currents have equal magnitudes. In the space provided below write
the direction of the currentI2 ( it
could be INTO the page or OUT of the page, it is your choice!).
Then, accordingly to your selection of
I2 , write the direction of the net
force acting on the wire I3 due to the
presence of the other two wires....
Three parallel current-carrying
wires are shown in the figure below. The currents in each wire are
I1 = 0.460 A, I2 = 0.710 A, and I3 = 0.260 A. If the wires are
separated by distances r1 = 0.185 m and r2 = 0.290 m, find the net
magnetic force per unit length on the middle wire due to the other
wires. (Express your answer in vector form.)
A The figure shows four current-carrying wires that are perpendicular to the page, where I1 = 1.2 A, 12 = 2.4 A, 13 = 3.6 A, and 14 = 4.2 A. Four Ampèrian loops are also shown. Find the current through each loop. (Indicate the direction with the sign of your answer.) Ithru, A = Ithru, 8 = Ithru, c = Ithru, D = A A A Loop A 13 o Loop D Loop C dł 120 Loop B dé
The figure below shows two parallel wires (#1 and #2) separated by a distance d and carrying currents 1 and 21 respectively in opposite directions. It also shows three points (P1, P2, and P3) where we wish to determine the magnetic field (magnitude and direction). Let's define a unit of magnetic field as fol, and use standard sign convention, namely into the page is negative and out of the page is 2nd positive. Determine the magnetic field at the following...
The picture below shows a cross-sectional view through three
long straight current-carrying wires, which are each carrying
current perpendicular to the page (or the screen). In this problem,
use these values:
the distance: a = 60.0 cm;
the current: I = 3.50 amps.
(a) Calculate the net force per unit length acting on the wire
that carries a current of 3I out of the page,
at x = +2a.
(b) Calculate the net magnetic field at x =
+a. Use a...
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