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Q1. (40 points) The closed loop shown in the figure carries a current of 3.0 A...
02310.0 points The closed loop shown in the figure carries a current of 8 A in...
02310.0 points The closed loop shown in the figure carries a current of 8 A in the counterclockwise direc- tion. The radius of the outer arc is 60 cm that of the inner arc is 40 cm. Both arcs sub tend an angle of 60 The permeability of free space is 4π 10 Tm/A 60° Find the component of the magnetic field at point O along the r axis. Answer in units of T
Problem 4: The closed loop shown carries a current of 10:=2.00. A. The radius of the...
Problem 4: The closed loop shown carries a current of 10:=2.00. A. The radius of the outer arc is Rout:= 10.0.1 cm, and the inner arc is Rin=3.00.cm. (a) Derive the magnetic field at point P. (b) using your result calculate the magnetic field magnitude and direction in Tesla at the point P. O loop=30.0.deg
The closed loop shown in the figure below carries a current of 14.5 A in the...
The closed loop shown in the figure below carries a current of 14.5 A in the counterclockwise direction The radius of the outer arc is 80 cm, that of the inner arc is 33 cm. Find the magnitude of the magnetic field at point P. 60° T Enter
Problem 4: The closed loop shown carries a current of 1.:=2.00.A. The radius of the outer...
Problem 4: The closed loop shown carries a current of 1.:=2.00.A. The radius of the outer arc is Rout==10.0•1•cm, and the inner arc is Rin=3.00.cm. (a) Derive the magnetic field at point P. (b) using your result calculate the magnetic field magnitude and direction in Tesla at the point P. O loop :=30.0• deg
The current loop ABCDA carries current 37.2 A in the direction indicated in the figure, where...
The current loop ABCDA carries current 37.2 A in the direction indicated in the figure, where the segments AB and CD are concentric arcs with radii 7 cm and 11 cm respectively. What is the magnitude of the resultant magnetic field ||B|| at the center of curvature O due to the current segment of arc CD? Answer in units of T.
Q4. (25 points) A long straight wire carries a current of 11 = 8 A is...
Q4. (25 points) A long straight wire carries a current of 11 = 8 A is at perpendicular distance d = 6 cm from a point P. The point P is at the center of a semicircle of radius R = 12 cm, and carries a current 12 = 17 A in the clockwise direction. a) (8 points) Find the magnetic field vector at point P due to the current 11 in the wire. b) (8 points) Find the magnetic...
PLEASE SHOW ALL WORK AND STEPS A wire loop carries a current i traveling in the...
PLEASE SHOW ALL WORK AND STEPS
A wire loop carries a current i traveling in the clockwise direction The loop is fixed in such a way that it can rotate about the axis (dashed line) shown in the figure. (a) In what direction will the magnetic field need to point for the loop to rotate counter clockwise, w hen viewed from above, about its axis? Explain the reasoning behind your answer. (A) Up (B) Down (C) Left (D) Right (E)...
A loop of wire is in the shape of two concentric semicircles as shown. (Figure 1) The inner circle has radius a; the ou...
A loop of wire is in the shape of two concentric semicircles as
shown. (Figure 1) The inner circle has radius a; the outer circle
has radius b. A current I flows clockwise through the outer wire
and counterclockwise through the inner wire. What is the direction
of the magnetic field at the center of the semicircles?
Question 4 A loop of wire is in the shape of two concentric semicircles as shown. (Eigure 1) The inner circle has radius...
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
To make an electric motor, you create a circular loop of wire with radius 0.0100 m....
To make an electric motor, you create a circular loop of wire with radius 0.0100 m. You also have a magnet that can produce a relatively uniform magnetic field of strength 0.30 T 2. a. At a certain point, the magnetic flux through the loop is 2.00 x 10- T.m2; what is the angle between the plane of the loop and the field? (Note: the angle is zero if the loop is oriented like figure P27.21 in Practice, p. 495.)...
02310.0 points The closed loop shown in the figure carries a current of 8 A in the counterclockwise direc- tion. The radius of the outer arc is 60 cm that of the inner arc is 40 cm. Both arcs sub tend an angle of 60 The permeability of free space is 4π 10 Tm/A 60° Find the component of the magnetic field at point O along the r axis. Answer in units of T
Problem 4: The closed loop shown carries a current of 10:=2.00. A. The radius of the outer arc is Rout:= 10.0.1 cm, and the inner arc is Rin=3.00.cm. (a) Derive the magnetic field at point P. (b) using your result calculate the magnetic field magnitude and direction in Tesla at the point P. O loop=30.0.deg
The closed loop shown in the figure below carries a current of 14.5 A in the counterclockwise direction The radius of the outer arc is 80 cm, that of the inner arc is 33 cm. Find the magnitude of the magnetic field at point P. 60° T Enter
Problem 4: The closed loop shown carries a current of 1.:=2.00.A. The radius of the outer arc is Rout==10.0•1•cm, and the inner arc is Rin=3.00.cm. (a) Derive the magnetic field at point P. (b) using your result calculate the magnetic field magnitude and direction in Tesla at the point P. O loop :=30.0• deg
The current loop ABCDA carries current 37.2 A in the direction indicated in the figure, where the segments AB and CD are concentric arcs with radii 7 cm and 11 cm respectively. What is the magnitude of the resultant magnetic field ||B|| at the center of curvature O due to the current segment of arc CD? Answer in units of T.
Q4. (25 points) A long straight wire carries a current of 11 = 8 A is at perpendicular distance d = 6 cm from a point P. The point P is at the center of a semicircle of radius R = 12 cm, and carries a current 12 = 17 A in the clockwise direction. a) (8 points) Find the magnetic field vector at point P due to the current 11 in the wire. b) (8 points) Find the magnetic...
PLEASE SHOW ALL WORK AND STEPS
A wire loop carries a current i traveling in the clockwise direction The loop is fixed in such a way that it can rotate about the axis (dashed line) shown in the figure. (a) In what direction will the magnetic field need to point for the loop to rotate counter clockwise, w hen viewed from above, about its axis? Explain the reasoning behind your answer. (A) Up (B) Down (C) Left (D) Right (E)...
A loop of wire is in the shape of two concentric semicircles as
shown. (Figure 1) The inner circle has radius a; the outer circle
has radius b. A current I flows clockwise through the outer wire
and counterclockwise through the inner wire. What is the direction
of the magnetic field at the center of the semicircles?
Question 4 A loop of wire is in the shape of two concentric semicircles as shown. (Eigure 1) The inner circle has radius...
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
To make an electric motor, you create a circular loop of wire with radius 0.0100 m. You also have a magnet that can produce a relatively uniform magnetic field of strength 0.30 T 2. a. At a certain point, the magnetic flux through the loop is 2.00 x 10- T.m2; what is the angle between the plane of the loop and the field? (Note: the angle is zero if the loop is oriented like figure P27.21 in Practice, p. 495.)...
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