Please clearly draw magnetic
dipole moment for both loops and explain how its done.
A small square loop of wire carrying some current is located between the poles of a horseshoe mag...
A flat rectangular loop of wire is placed between the poles of a
magnet, as shown in the figure. It has dimensions w =
0.60 m and L = 1.0 m, and carries a current I = 2.0 A in the
direction shown. The magnetic field due to the magnet is uniform
and of magnitude 0.80 T. The loop rotates in the magnetic field and
at one point the plane of the loop is parallel to the field, as
shown.A)...
electricity may be generated by rotating a loop of wire
between the poles of a magnet. the induced current is least
when
b. 5.0 T/m d. 0.25 1/m 31) Electricity may be generated by rotating a loop of wire between the poles of a magnet. The induced aelean tendieular toahe Watp che masgnetic feld a. the plane of the loop is perpendicular to the magnetic field. b. the plane of the loop makes an angle of 45° with the magnetic...
A square loop of wire with side length a carries a current I1. The center of the loop is located a distance d from an infinite wire carrying a current I2. The infinite wire and loop are in the same plane; two sides of the square loop are parallel to the wire and two are perpendicular as shown. (Figure 1)Part AWhat is the magnitude, F, of the net force on the loop?Express the force in terms of I1, I2, a,...
Lab Homework - Force on a Current-Carrying Wire This homework will be due when you come to lab the week of November 4. A horseshoe magnet, with its north and south poles indicated, is shown in the figure below. Between the poles of the magnet is a wire perpendicular to the page, with current out of the page. a) Draw magnetic field lines for the magnet. Explain why you drew the field lines the way you did. b) If there...
1. A rectangular loop of width a and length b is located near a long wire carrying a current I. The distance between the wire and the closet side of the loop is c. The wire is parallel to the long side of the loop. Find the total magnetic flux through the loop due to the current in the wire.
Michal Smith R11340334 PHYSICS 1404 Lab Homework-Force on a Current-Carrying Wire This homework will be due when you come to lab the week of November 4. A horseshoe magnet, with its north and south poles indicated, is shown in the figure below. Between the poles of the magnet is a wire perpendicular to the page, with current out of the page. a) Draw magnetic field lines for the magner. Explain why you drew the field lines the way you did....
Equipment: 1 current-carrying wire set-up 1 power supply 1 ammeter Exploration 2: Direction of force on a current-carrying wire II Exploration 2.1 At your table, is the main unit you will be using today, mounted on lab stand. It is shown in the picture below. Place one of the current loops into the end of the main unit, with the foil extending down into the magnet assembly and position the lab stand with the Current Loop down between the poles...
A square planar loop of coiled wire has a length of 0.25 m on a side and is rotated 60 times per second between the poles of a permanent magnet. The magnetic field between the poles is 0.75 T. If a peak voltage of 1 kV is generated in the coil, how many turns does it have? 56 turns 25 turns 60 turns 120 turns 1000 turns The figure shows a stationary conducting loop adjacent to a horizontal current-carrying wire....
Q2. (12 p) The diagram shows a wire carrying current 11 and a loop carrying current 12. Side of the loop has length L. The distance between the wire and left edge of the loop is R1, and the distance between the wire and right edge of the loop is R2. a. What is the magnitude and direction of the magnetic field B produced by the wire at distancer, on the right side of the wire (in the region where...
Question 11 5 pts A square planar loop of coiled wire has a length of 0.25 mon a side and is rotated 60 times per second between the poles of a permanent magnet. The magnetic field between the poles is 0.75 T. If a peak voltage of 1 kV is generated in the coil, how many turns does it have? 56 turns 25 turns O 60 turns O 120 turns O 1000 turns D Question 12 5 pts The figure...