IP A single current-carrying circular loop of radius R is placed next to a long, straight...
IP A single current-carrying circular loop of radius R is placed next to a long, straight wire, as shown in the figure(Figure 1) . The current in the wire points to the right and is of magnitude I.
A. In which direction must current flow in the loop to produce zero magnetic field at its center? Explain.
B. Calculate the magnitude of the current in part A. Express your answer in terms of some or all of the variables R, I, and appropriate constants.
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IP A single current-carrying circular loop of radius R is placed
next to a long, straight...
A single current-carrying circular loop of radius R is placed next to a long, straight wire,...
A single current-carrying circular loop of radius
R is placed next to a long, straight wire, as
shown in the
figure. The current I in the wire flows to the
right and the a current I flows counter-clockwise
on the loop. What is the net magnetic field produce at the center
of the loop?
I R/2
A flat circular loop of wire of radius R carrying a current I is placed in...
A flat circular loop of wire of radius R carrying a current I is placed in a uniform magnetic field B that is directed in the plane of the current loop. What is the magnetic moment M of the loop? What is the magnitude of the torque acting on the loop? In which direction the loop will rotate under the influence of this torque?
Page 3 of 3 A current-carrying circular loop of wire (radius r, current I) is partially...
Page 3 of 3 A current-carrying circular loop of wire (radius r, current I) is partially immersed in a magnetic field of constant magnitude Bo directed out of the page as shown in the figure below. Determine the net force on the loop due to the field in terms of 0o. Note the direction of x and y coordinates and the following double angle trigonometric identity, cos(2a) 1-sin (a) Q7. B-0 B-0
A conductor consists of a circular loop of radius R = 34.0 cm and two long,...
A conductor consists of a circular loop of radius R = 34.0 cm and two long, straight sections as shown in the figure. The wire lies in the plane of the paper and carries a current I-1.50 A. Find the magnetic field at the center of the loop. magnitude direction .-Select Need Help?Read It
4. A circular conducting loop of radius r carrying current I as shown in Fig. 4...
4. A circular conducting loop of radius r carrying current I as shown in Fig. 4 is placed above the North pole of a cylindrical bar magnet. Everywhere on the loop, the magnetic field of the magnet has the same magnitude B and makes angle a with the vertical axis in a diverging fashion (as sketched). What is the total resultant force F produced on the loop by the magnet? Is it zero or not and why? If it is...
4. A long straight wire carrying a current is in the plane of a circular loop...
4. A long straight wire carrying a current is in the plane of a circular loop of wire. The current is decreasing. Both the loop and the wire are held in place by external forces. The loop has a resistance of 24. -Long wire Conducting loop a) In what direction does the induced current in the loop flow? Mint: first find the external magnetic field at the loop due to the long wire, figure out if the flux through the...
A current-carrying circular loop of wire (radius r, current I) is partially immersed in a magnetic field of constant magnitude B0
A current-carrying circular loop of wire (radius r, current I) is partially immersed in a magnetic field of constant magnitude B0 directed out of the page as shown in the figure.(Figure 1) Part A Determine the x, y, and z projections of the net force on the loop due to the field in terms of θ0. (Note that θ0 points to the dashed line, above which B = 0.)
What is the magnitude of the magnetic field of a loop carrying constant current in the...
What is the magnitude of the magnetic field of a loop carrying
constant current in the center of the loop?
B =
Magnetic field field due to a loop of current r=(x+ + y 12 dBy Imagine a thin current loop of radius R as in the figure above carrying a constant current I in the direction out of the page (the loop in the figure is turned slightly for a better view). What is the magnitude of the magnetic...
4. Consider a circular loop of wire with a mass m and a radius R. The...
4. Consider a circular loop of wire with a mass m and a radius R. The circular loop is vertical such that gravitational force on the loop points straight down. You may assume this is near the surface of the earth such that the force of gravity has a magnitude FGl mg. The upper half of the circular wire is immersed in a uniform magnetic field B pointing into the page. In the figure below this corresponds to the region...
A flat rectangular wire loop is positioned next to a long straight current-carrying wire
Problem 6: A flat rectangular wire loop is positioned next to a long straight current-carrying wire. Both the loop and the wire are in the plane of the page, and the direction of the current is clearly indicated in the figure.Part (a) Which image best indicates the direction of the magnetic field due to the current in the long straight wire at a point inside the loop? Part (b) How does the magnitude of the magnetic field change as the perpendicular...
A single current-carrying circular loop of radius
R is placed next to a long, straight wire, as
shown in the
figure. The current I in the wire flows to the
right and the a current I flows counter-clockwise
on the loop. What is the net magnetic field produce at the center
of the loop?
I R/2
A flat circular loop of wire of radius R carrying a current I is placed in a uniform magnetic field B that is directed in the plane of the current loop. What is the magnetic moment M of the loop? What is the magnitude of the torque acting on the loop? In which direction the loop will rotate under the influence of this torque?
Page 3 of 3 A current-carrying circular loop of wire (radius r, current I) is partially immersed in a magnetic field of constant magnitude Bo directed out of the page as shown in the figure below. Determine the net force on the loop due to the field in terms of 0o. Note the direction of x and y coordinates and the following double angle trigonometric identity, cos(2a) 1-sin (a) Q7. B-0 B-0
A conductor consists of a circular loop of radius R = 34.0 cm and two long, straight sections as shown in the figure. The wire lies in the plane of the paper and carries a current I-1.50 A. Find the magnetic field at the center of the loop. magnitude direction .-Select Need Help?Read It
4. A circular conducting loop of radius r carrying current I as shown in Fig. 4 is placed above the North pole of a cylindrical bar magnet. Everywhere on the loop, the magnetic field of the magnet has the same magnitude B and makes angle a with the vertical axis in a diverging fashion (as sketched). What is the total resultant force F produced on the loop by the magnet? Is it zero or not and why? If it is...
4. A long straight wire carrying a current is in the plane of a circular loop of wire. The current is decreasing. Both the loop and the wire are held in place by external forces. The loop has a resistance of 24. -Long wire Conducting loop a) In what direction does the induced current in the loop flow? Mint: first find the external magnetic field at the loop due to the long wire, figure out if the flux through the...
What is the magnitude of the magnetic field of a loop carrying
constant current in the center of the loop?
B =
Magnetic field field due to a loop of current r=(x+ + y 12 dBy Imagine a thin current loop of radius R as in the figure above carrying a constant current I in the direction out of the page (the loop in the figure is turned slightly for a better view). What is the magnitude of the magnetic...
4. Consider a circular loop of wire with a mass m and a radius R. The circular loop is vertical such that gravitational force on the loop points straight down. You may assume this is near the surface of the earth such that the force of gravity has a magnitude FGl mg. The upper half of the circular wire is immersed in a uniform magnetic field B pointing into the page. In the figure below this corresponds to the region...
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