Find the magnitude of the magnetic field at the center of a 33 turn circular coil with radius 16.9 cm, when a current of 3.63 Aflows in it.
Q: Two plates are being discharged by a constant current. Each plate has a radius of 4.00 cm. During…
A: a) Magnitude of the magnetic field at radial distance of 6.00 cmThe point at the radial distance of…
Q: A 50.0-turn circular coil of radius 5.00 cm can be oriented in any direction in a uniform magnetic…
A: Given Radius r =5.00cm = 5 x 10-2m No of turns n =50 Current i = 25 mA = 25 x 10-3A Magnetic Field (…
Q: A long, straight wire perpendicular to this page carries a current of 4.76 A directed into the page.…
A: since the current is into the page, magnetic field will be clockwise due to right hand thumbs rule
Q: A straight wire of length 0.40 m carries a current of 50 A and makes an angle of 30° with a uniform…
A: Given: The electric current is 50 A. The length of the wire is 0.4 m. The angle of current with the…
Q: A long solenoid with 10.0 turns/cm and a radius of 10.1 cm carries a current of 29.8 mA. A current…
A:
Q: A straight wire carrying a 3.00-A current is placed in a uniform magnetic field of magnitude 0.280 T…
A:
Q: A long solenoid with 14.8 turns/cm and a radius of 5.85 cm carries a current of 28.0 mA. A current…
A:
Q: Two long, parallel wires carry currents of I 1 =4.00 A and I 2 =6.00 A in the directions indicated…
A:
Q: The power cable for an electric trolley carries a horizontal current of 330 A toward the east. The…
A: Current (I) = 330ALength of the cable (L) : 15 mMagnetic field strength (B) = 5.0 x 10-5TAngle () =…
Q: A single circular loop of wire carries a current of 1.65 A and produces a magnetic field of 6.73 μT…
A: Given data, a single circular loop of wire carries a current, I=1.65 (A); magnetic field magnitude…
Q: field 38.0 cm away from a long, straight wire carrying current 4.00 A is 2110 nT. (a) At what…
A: As the Part D is solved I am going to solve Part A,B,C; Given: Distance, d = 38 cm = 38x 10-2 m…
Q: The figure shows a cross section across a long cylindrical conductor of radius a = 1.81 cm carrying…
A:
Q: A long, straight current carrying wire has a current of 85 amps. A circular counterclockwise current…
A: Given: Current in straight wire, I = 85 A Current in circular loop, I' = 15.5 A Distance between…
Q: An 80 cm straight wire carrying 85 ma flowing to the right in a horizontal direction. Above it is a…
A:
Q: A horizontal power line of length 63.2 m carries a current of 2.38 KA northward as shown in the…
A: The magnetic force on a current-carrying wire in the magnetic field is given by Where I = Current…
Q: Using appropriate technology, you determine that Earth's magnetic field at your location has a…
A:
Q: An electron moves in a circular path with a speed of 1.49 ✕ 107 m/s in the presence of a uniform…
A: Given that - Speed of the electron Magnitude of the uniform magnetic field Angle To Find -…
Q: A lightning bolt may carry a current of 1.00 104 A for a short time. What is the resulting magnetic…
A: It is given that,
Q: the magnetic field at the center of this solenoid
A:
Q: 38.9 A current flows in a long, straight wire. Find the strength of the resulting magnetic field at…
A:
Q: An electron moves in a circular path perpendicular to a uniform magnetic field with a magnitude of…
A:
Q: wo long parallel wires are separated by 21.7 cm. The wire on the left carries a current of 24.0 A…
A: We will answer this question using expression for magnetic field due to a long wire carrying…
Q: A solenoid of length 2.20 m and radius 2.00 cm carries a current of 0.110 A. Determine the magnitude…
A:
Q: concentric circular loops of wire lie on a tabletop, one inside the other. The inner wire has a…
A:
Q: In the figure below, a long circular pipe with outside radius R-2.94 cm carries a (uniformly…
A:
Q: The two wires in Figure 2 carry currents of 3.00 A and 5.00 A in the direction indicated. Find the…
A: Explanation and solution shown in the picture below ?
Q: A 10.3 cm long solenoid contains 711 turns and carries a current of 4.29 A. What is the strength B…
A: Given:length of the solenoid, L = 10.3 cm = 0.103 mtotal number of turns, N = 711current in the…
Q: al power line of length 56.2 m carries a current of 2.38 kA northward as shown in the 65.0 Find the…
A: Given: Length of power line L = 56.2 cm Current in power line I = 2.38 kA Magnitude of earth…
Q: A particle with mass 10.0g and charge 15.0 μC has a velocity vector of 8.0ˆi + 4.0ˆj m/s. It enters…
A:
Q: A toroid has 1430 turns of a large diameter wire carrying a current of 10.8 kA. The inner and outer…
A: The given values are, N=1430I=10.8 kA=10.8×103 Ari=0.600 mro=1.20 m
Find the magnitude of the magnetic field at the center of a 33 turn circular coil with radius 16.9 cm, when a current of 3.63 Aflows in it.
Trending now
This is a popular solution!
Step by step
Solved in 3 steps
- A long solenoid with 10.0 turns/cm and a radius of 10.1 cm carries a current of 29.8 mA. A current of 4.51 A exists in a straight conductor located along the central axis of the solenoid. (a) At what radial distance from the axis in centimeters will the direction of the resulting magnetic field be at 33.8° to the axial direction? (b) What is the magnitude of the magnetic field there? (a) Number 1.61 (b) Number 6.73e-5 Units Units cm TA conducting barmakes contact with two wires in a region of constant magnetic field. The resistance of the wires can be ignored. The applied voltage is 10.0 Volts and the resistance of the bar is 0.300Ω. The B field is into the page and has a magnitude of 0.800 Tesla. The distance between the wires is a = 5.00 x 10-2m. Find: a.The direction and magnitude of the force on the barwhen v=0. b.The maximum speed of the bar. c.The direction and magnitude of the current through the barwhen (v= 250 m/s to the right).A lightning bolt may carry a current of 1.00 104 A for a short time. What is the resulting magnetic field 190 m from the bolt? Suppose that the bolt extends far above and below the point of observation.
- A straight wire is aligned north-south in a region where the Earth’s magnetic field has magnitude 0.054 mT and direction 68° below the horizontal, with the horizontal component directed due north. The wire carries 200 A current toward the north. (a) What is the magnitude of the magnetic force on a 1.0-m segment of the wire? (b) What is the direction of the magnetic force?The figure shows a wire ring of radius a = 1.80 cm that is perpendicular to the general direction of a radially symmetric, diverging magnetic field. The magnetic field at the ring is everywhere of the same magnitude B = 3.43 mT, and its direction at the ring everywhere makes an angle θ=36.2owith a normal to the plane of the ring. The twisted lead wires have no effect on the problem. Find the magnitude of the force the field exerts on the ring if the ring carries a current i = 4.37 mA.A lightning bolt may carry a current of 1.00 104 A for a short time. What is the resulting magnetic field 60 m from the bolt? Suppose that the bolt extends far above and below the point of observation.
- A lightning bolt may carry a current of 1.00 104 A for a short time. What is the resulting magnetic field 90 m from the bolt? Suppose that the bolt extends far above and below the point of observation.Point P is midway between two long, straight, parallel wires that run north-south in a horizontal plane. The distance between the wires is 1.00 cm. Each wire carries a current of 3.30 A toward the north. Find the magnetic field at point P.A 5.5 m length of current carrying conductor with 24.2 A of current flowing out of the page is placed in a magnetic field of strength 4.00 x 10-4 T [West]. Find the magnitude and direction of maximum force on the conductor.
- As shown in the figure below, two long parallel wires (1 and 2) carry currents of I1 = 3.00 A and I2 = 5.10 A in the direction indicated. (a) Determine the magnitude and direction of the magnetic field at a point midway between the wires (d = 10.0 cm). and (b) Determine the magnitude and direction of the magnetic field at point P, located d = 10.0 cm above wire 1.A lightning bolt may carry a current of 1.00 104 A for a short time. What is the resulting magnetic field 200 m from the bolt? Suppose that the bolt extends far above and below the point of observation. If possible break it down step by step?A long, straight, hollow wire with inner radius 3.0 mm and outer radius 8.ó mm has 2.4 A of current passing through, uniformly distributed throughout its cross-sectional area. Determine the magnitude of the magnetic field by the wire a radial distance of 6.3 mm from its axis. Give your answer in units of µT.