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Determine the magnetic field as a function of position for the three different surface currents shown...
Problem 6: (15 Points) Three infinite parallel straight wires carry three different currents as shown in the Figure below. (a) Find the magnetic field at point P (magnitude and direction)? (b) Find the net force acting on wire #3 per unit of length (magnitude and direction)? l12-24 T- 1-1A P Is cm 10 cm 10 cm
1. Determine the magnetic field direction that causes the charged particles shown in the figure below to experience the indicated magnetic field. 2. The right edge of the circuit in the figure below extends into a 50 mT uniform magnetic field. What are the magnitude and direction of the net force on the circuit?
Three currents are passing
through a surface bounded by a closed path. The currents have
different values and directions.
What is the magnetic field at
the position of the dot in the figure (Figure 1) ? Give your answer
as a vector.Express your answer in terms of the unit
vectors i^,
j^, and
k^. Use the 'unit vector' button
to denote unit vectors in your answer.
What is the magnetic field at the position of the dot in the figure (Figure 1) ? Give your answer as a vector.Express your answer in terms of the unit vectors i cap,...
pics
cant really figure these out
4. (25 pts.) Determine the magnetic field in all regions of space for this cable: Rz z. 2. (25 pts.) Determine the equivalent resistance of the setup in the pict Set up the equations for the currents in this circuit ее (o Phy 2049C (25 pts.) A current of 5 A is moving into this page. Determine the magnetic field it produces 3 m directly above it. Use i, j, and k to give...
In Figure (a), two circular loops, with different currents but the same radius of 40 cm, are centered on a y axis. They are initially separated by distance L-3.0 cm, with loop 2 positioned at the origin of the axis. The currents in the two loops produce a net magnetic field at the origin, with y component By That component is to be measured as loop 2 is gradually moved in the positive y direction. Figure (b) gives By as...
Two currents are shown in the figure below. Current a is into
the page and current b is out of the page. Both currents have the
same magnitude.
a. Draw a vector representing the relative magnitude and
direction of the field at each of the black dots shown. You can
represent how the strength of the field changes with distance from
the current with the lengths of your vectors. The two currents are
very far from each other
b. Draw...
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.
Extra Credit (20 pts) Determine the magnetic field at point P shown (x is the perpendicular distance from the midpoint between the two identical currents, & P is the same distance from both currents). L X
Extra Credit (20 pts) Determine the magnetic field at point P shown (x is the perpendicular distance from the midpoint between the two identical currents, & P is the same distance from both currents). L X