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2. RFID Tag Magnetic field: Consider a square loop of wire that lies in the x-y plane and carries...
normal 2. RFID Tag Magnetic field: Consider a square loop of wire that lies in the...
normal 2. RFID Tag Magnetic field: Consider a square loop of wire that lies in the x-y plane and carries an electric current lo. The center of the loop is located at the origin and each side has length a. The current flows in a counter-clockwise direction as shown in the figure below. Note*: This is a common design for an RFID tag's antenna, we will analyze RFID tag detection at a later time. Using Biot-Savart's law, find an expression...
3. (a) A square loop of wire lies in the ry plane and is centred at...
3. (a) A square loop of wire lies in the ry plane and is centred at the origin. Two segments are parallel to the axis and are at y = ±R. The other two segments are parallel to the y axis and are at z-th. The loop carries a steady current lo. What is the magnetic field at the origin? (b) The square loop of part (a) is replaced by a hexagon: the distance from the origin to the nearest...
A circular loop of wire lies in the plane of the paper. An increasing magnetic field...
A circular loop of wire lies in the plane of the paper. An increasing magnetic field points out of the paper. What is the direction of the induced current in the loop? A) counter-clockwise B) clockwise C) counter-clockwise then clockwise D) clockwise then counter-clockwise E) There is no current induced in the loop.
A square loop with sides of length L lies in the x-y plane in a region...
A square loop with sides of length L lies in the x-y plane in a
region in which the magnetic field points in the z-direction and
change over time as B(t)=B0e^(-5t/t0)k. Find the magnitude of the
EMF induced in the wire, show the direction of the induced current
in the loop using Lenz's law.
A square loop with sides of length L lies in the r-y plane in a region in which the magnetic field points in the z-direction and...
A circular loop of wire with area A lies in the y-plane. As viewed along the...
A circular loop of wire with area A lies in the y-plane. As viewed along the z axis looking in the -z direction toward the origin, a current I is circulating clockwise around the loop. The torque produced by an external magnetic field B is given by tau = D(4i - 4j), where D is a positive constant, and for this orientation of the loop the magnetic potential energy U = -mu middot B is negative. The magnitude of the...
2. Consider a circular current loop of radius R placed in the xy plane as shown in the figure. It...
The 5th page of lecture 24:
2. Consider a circular current loop of radius R placed in the xy plane as shown in the figure. It is centered at the origin and viewed down from the positive z-axis the current, lo, flows anti-clockwise. Radius = R a. In what direction does the magnetic field point at the red point in the figure, Fa? Explain clearly why this is true. current b. Since B-VxA, in which plane does Alie. Explain clearly...
7. Using the Biot-Savart-Law, determine the magnetic field at point C due the current loop seen...
7. Using the Biot-Savart-Law, determine the magnetic field at point C due the current loop seen in the figure below, where the two arcs are segments of two circles with radii Ri and R2 respectively, and with their centers located at C. The current, I, circulates through the loop in counter-clockwise direction. Your expression should depend only on the two radii, the current and the angle θ
Figure below shows a square loop of wire that lies in the xy-plane. The loop carries...
Figure below shows a square loop of wire that lies in the xy-plane. The loop carries a constant current I in the clockwise direction. The magnetic field has nox component but has both and 2-components: B (Bo/L)+(Boy/L)k where Bo is a positive constant. (L = 1 m, 1 - 2 A, B = 3 T)) Find the magnitude and direction of the net magnetic force on the loop. 102 LD 0,00 (20) OA 6 N(j) a Zero None of above...
A circular loop of wire with area A lies in the xy-plane. As viewed along the...
A circular loop of wire with area A lies in the xy-plane. As viewed along the z-axis looking in the −z-direction toward the origin, a current I is circulating clockwise around the loop. The torque produced by an external magnetic field B⃗ is given by τ⃗ =D(3i^−3j^), where D is a positive constant, and for this orientation of the loop the magnetic potential energy U=−μ⃗ ⋅B⃗ is negative. The magnitude of the magnetic field is B0=15D/IA. Determine the component Bx of B⃗...
24: 15 points) consider a circular current loop of radius a in the x-y plane, which...
24: 15 points) consider a circular current loop of radius a in the x-y plane, which carries steady current l. Use Biot-Savart law to find the magnetic field strength anywhere on the z axis.
normal 2. RFID Tag Magnetic field: Consider a square loop of wire that lies in the x-y plane and carries an electric current lo. The center of the loop is located at the origin and each side has length a. The current flows in a counter-clockwise direction as shown in the figure below. Note*: This is a common design for an RFID tag's antenna, we will analyze RFID tag detection at a later time. Using Biot-Savart's law, find an expression...
3. (a) A square loop of wire lies in the ry plane and is centred at the origin. Two segments are parallel to the axis and are at y = ±R. The other two segments are parallel to the y axis and are at z-th. The loop carries a steady current lo. What is the magnetic field at the origin? (b) The square loop of part (a) is replaced by a hexagon: the distance from the origin to the nearest...
A square loop with sides of length L lies in the x-y plane in a
region in which the magnetic field points in the z-direction and
change over time as B(t)=B0e^(-5t/t0)k. Find the magnitude of the
EMF induced in the wire, show the direction of the induced current
in the loop using Lenz's law.
A square loop with sides of length L lies in the r-y plane in a region in which the magnetic field points in the z-direction and...
A circular loop of wire with area A lies in the y-plane. As viewed along the z axis looking in the -z direction toward the origin, a current I is circulating clockwise around the loop. The torque produced by an external magnetic field B is given by tau = D(4i - 4j), where D is a positive constant, and for this orientation of the loop the magnetic potential energy U = -mu middot B is negative. The magnitude of the...
The 5th page of lecture 24:
2. Consider a circular current loop of radius R placed in the xy plane as shown in the figure. It is centered at the origin and viewed down from the positive z-axis the current, lo, flows anti-clockwise. Radius = R a. In what direction does the magnetic field point at the red point in the figure, Fa? Explain clearly why this is true. current b. Since B-VxA, in which plane does Alie. Explain clearly...
7. Using the Biot-Savart-Law, determine the magnetic field at point C due the current loop seen in the figure below, where the two arcs are segments of two circles with radii Ri and R2 respectively, and with their centers located at C. The current, I, circulates through the loop in counter-clockwise direction. Your expression should depend only on the two radii, the current and the angle θ
Figure below shows a square loop of wire that lies in the xy-plane. The loop carries a constant current I in the clockwise direction. The magnetic field has nox component but has both and 2-components: B (Bo/L)+(Boy/L)k where Bo is a positive constant. (L = 1 m, 1 - 2 A, B = 3 T)) Find the magnitude and direction of the net magnetic force on the loop. 102 LD 0,00 (20) OA 6 N(j) a Zero None of above...
24: 15 points) consider a circular current loop of radius a in the x-y plane, which carries steady current l. Use Biot-Savart law to find the magnetic field strength anywhere on the z axis.
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