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1) In a circuit with current I and voltage V, the electric power...
1) In a circuit with current I and voltage V, the electric power delivered to the...
1) In a circuit with current I and voltage V, the electric power delivered to the circuit for direct current is: for alternate current with peak Io and Vo power is: 2) For a straight wire that has a length L and carries a current I, the magnetic force has a magnitude: F -T Where θ is the angle between the direction of l and B. 3) If a current I exists in a coil of wires with N turns,...
A wire bent into the shape of a semicircle of radius Rforms a closed circuit and...
A wire
bent into the shape of a semicircle of radius Rforms
a closed circuit and carries a current I.
The circuit lies in the xy
plane,
and a uniform magnetic field is present along the positive
y
axis as
in Figure 29.12. Find the magnetic force on the straight portion of
the wire and on the curved portion. Please answer the part I
circled in red!!! Thank you!
2. 2.2/5 points | Previous Answers PSE6 29 AE 02 Example...
A high-voltage power line carries a current of 134 A at a location where the Earth's...
A high-voltage power line carries a current of 134 A at a location where the Earth's magnetic field has a magnitude of 0.59 G and points to the north, 66 ∘ below the horizontal. Part B Find the magnitude of the magnetic force exerted on a 260 m length of wire if the current in the wire flows horizontally toward the east.
(9) A straight wire is placed in a uniform magnetic field; the wire makes an angle...
(9) A straight wire is placed in a uniform magnetic field; the wire makes an angle of θ with the magnetic field. The wire carries a current i, and the magnetic field strength is T. Calculate the force on a segment of length l of this wire. Show the direction of the force in a sketch, which also indicates the direction of the field and the magnetic field. [20 pts]
The power dissipated in an electrical circuit is the current times the voltage drop. In this...
The power dissipated in an electrical circuit is the current times the voltage drop. In this case, I times the emf across the rod. k. What is the power dissipated? The power delivered by an external force is AW/At, where W = F .s is the work done by the applied force, F, and s is the displacement. 1. Show that the power delivered is also F. v. m. What is the power delivered by the external force? n. Why...
A straight wire carries a current of 10 A at an angle of 30* with respect...
A straight wire carries a current of 10 A at an angle of 30* with respect to the direction of a uniform 0.30 T magnetic field. Find the angle the magnitude of the magnetic force on a 0.50 m length of the wire.
s pts A horizontal power line of length 58 m carries a current of 4.7 kA...
s pts A horizontal power line of length 58 m carries a current of 4.7 kA as shown below. Wearth's magnetic field at this location has a magnitude equal to 5.0 x 105T and makes an angle of 55° with the power line. Find the magnitude and direction of the magnetic force on the power line. Current direction pen Angle Measurement
Question 14 (7 points) A straight wire of length L carries a current I in the...
Question 14 (7 points) A straight wire of length L carries a current I in the positive z-direction in a region where the magnetic field is uniform and specified by B = 3Bữ – 2Bỳ + Bĩ and B is a constant. What is the magnitude of the magnetic force on the wire? 1.0 ILB 03. 2 ILB O 3.6 ILB 4.2 ILB 0 5.0 ILB
In the image: there is a current of 0.5 (A) flowing in the circuit. A) Calculate...
In the image: there is a current of 0.5 (A) flowing in the circuit. A) Calculate the voltage of power supply V in the circuit. B) Show the direction of electric current in the circuit and looped wire (show in the image) C) Calculate the magnitude of the magnetic field in the center of the loop which has a radius of 20 (cm). D) Show the direction of the magnetic field in the center of the loop due in image,...
In the image: there is a current of 0.5 (A) flowing in the circuit. A) Calculate...
In the image: there is a current of 0.5 (A) flowing in the circuit. A) Calculate the voltage of power supply V in the circuit. B) Show the direction of electric current in the circuit and looped wire (show in the image) C) Calculate the magnitude of the magnetic field in the center of the loop which has a radius of 20 (cm). D) Show the direction of the magnetic field in the center of the loop due in image,...
1) In a circuit with current I and voltage V, the electric power delivered to the circuit for direct current is: for alternate current with peak Io and Vo power is: 2) For a straight wire that has a length L and carries a current I, the magnetic force has a magnitude: F -T Where θ is the angle between the direction of l and B. 3) If a current I exists in a coil of wires with N turns,...
A wire
bent into the shape of a semicircle of radius Rforms
a closed circuit and carries a current I.
The circuit lies in the xy
plane,
and a uniform magnetic field is present along the positive
y
axis as
in Figure 29.12. Find the magnetic force on the straight portion of
the wire and on the curved portion. Please answer the part I
circled in red!!! Thank you!
2. 2.2/5 points | Previous Answers PSE6 29 AE 02 Example...
(9) A straight wire is placed in a uniform magnetic field; the wire makes an angle of θ with the magnetic field. The wire carries a current i, and the magnetic field strength is T. Calculate the force on a segment of length l of this wire. Show the direction of the force in a sketch, which also indicates the direction of the field and the magnetic field. [20 pts]
The power dissipated in an electrical circuit is the current times the voltage drop. In this case, I times the emf across the rod. k. What is the power dissipated? The power delivered by an external force is AW/At, where W = F .s is the work done by the applied force, F, and s is the displacement. 1. Show that the power delivered is also F. v. m. What is the power delivered by the external force? n. Why...
s pts A horizontal power line of length 58 m carries a current of 4.7 kA as shown below. Wearth's magnetic field at this location has a magnitude equal to 5.0 x 105T and makes an angle of 55° with the power line. Find the magnitude and direction of the magnetic force on the power line. Current direction pen Angle Measurement
Question 14 (7 points) A straight wire of length L carries a current I in the positive z-direction in a region where the magnetic field is uniform and specified by B = 3Bữ – 2Bỳ + Bĩ and B is a constant. What is the magnitude of the magnetic force on the wire? 1.0 ILB 03. 2 ILB O 3.6 ILB 4.2 ILB 0 5.0 ILB
In the image: there is a current of 0.5 (A) flowing in the circuit. A) Calculate the voltage of power supply V in the circuit. B) Show the direction of electric current in the circuit and looped wire (show in the image) C) Calculate the magnitude of the magnetic field in the center of the loop which has a radius of 20 (cm). D) Show the direction of the magnetic field in the center of the loop due in image,...
In the image: there is a current of 0.5 (A) flowing in the circuit. A) Calculate the voltage of power supply V in the circuit. B) Show the direction of electric current in the circuit and looped wire (show in the image) C) Calculate the magnitude of the magnetic field in the center of the loop which has a radius of 20 (cm). D) Show the direction of the magnetic field in the center of the loop due in image,...
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