you have a circular loop of wire placed in the x-y plane. The current I=8A is flowing along clockwise through the loop if we look from above the xy plane. Calculate the magnetic dipole moment. Assume that the radius of the loop is R=10cm
Q: A student makes a short electromagnet by winding 480 turns of wire around a wooden cylinder of…
A: Given: The windings is wire is N=480 turns. The diameter of the cylinder is d=2.3 cm. The current…
Q: A student makes a short electromagnet by winding 430 turns of wire around a wooden cylinder of…
A:
Q: Chapter 28, Problem 030 GO In the figure, an electron with an initial kinetic energy of 3.90 keV…
A: Disclaimer: “Since you have asked multiple question, we will solve the first question for you. If…
Q: A student makes a short electromagnet by winding 330 turns of wire around a wooden cylinder of…
A: Given, The number of turns, N=330 The diameter of the wooden cylinder, d=4.0 cm=0.04 m Radius,…
Q: Four long, parallel conductors carry equal currents of I = 8.00 A. The figure below is an end view…
A:
Q: A circular wire loop of radius 22.0 cm carries a current of 4.90 A. It is placed so that the normal…
A:
Q: If a rectangular loop of wire with single turn is placed between the two poles poles of a magnet,…
A: Given data: Width (w) = 0.30 m Length (L) = 1.2 m Current (I) = 1.5 A Magnetic field (B) = 0.90 T…
Q: A circular coil with 232 turns has a radius of 2.4 cm. (a) What current through the coil results in…
A:
Q: A loop of wire carries a current of 3 A and has an area of .2 square meters. It is placed in a…
A: The loop is in the y-z plane and hence area normal is perpendicular to the y-z plane. Area vector of…
Q: A student makes a short electromagnet by winding 480 turns of wire around a wooden cylinder of…
A: (a) The magnetic dipole moment of coil of wire with number of turns n with area A having a current I…
Q: Current of 3.8 A flows in the coil as shown in the figure. The coil has 4 loops and is situated in…
A:
Q: A current of 19.0 mA is maintained in a single circular loop of 2.60 m circumference. A magnetic…
A: The magnetic moment of circular loop is given as m=nIA…
Q: A point charge Q moves on the x-axis in the positive direction with a speed of 280 m/s. A point P is…
A: SOlution: Given that B =0.3 micro T y = 70 mm v = 280 m/s
Q: A segment of wire carries a current of 20 A along the x axis from x = −6 m to x = 0 and then along…
A:
Q: A student makes a short electromagnet by winding 390 turns of wire around a wooden cylinder of…
A: (a) The magnetic dipole moment of coil of wire with number of turns n with area A having a current I…
Q: A particle having mass m = 2.80E-4 kg carries a negative charge q= −1.70E-6 C . The particle is…
A: Mass of particle is Charge on particle is Velocity is in downward (-y)-direction.Magnetic field is…
Q: Problem 7: A circular coil is made up of N= 380 closely wrapped tumns of wire and has a adius R =…
A: Magnetic monopoles do not exist, unlike the electrostatics case where the electric dipole has…
Q: Four long, parallel conductors carry equal currents of I = 5.40 A. The figure below is an end view…
A:
Q: y В 30 X
A: q = 1.00x10-8 C v = 3.00x 104 m/s B= 1T M= 10-3 kg
Q: (a) A conducting loop in the shape of a square of edge length ℓ = 0.380 m carries a current I = 10.6…
A:
Q: Pr4. A solid, long insulating cylinder of radius R is uniformly charged over the entire volume, its…
A: given is long insulating cylinder volume charge density ρ angular velocity ω find magnetic field :…
Q: An electron moves in a circle of radius r= 6.19 x 10-11 m with a speed 2.47 x 106 m/s. Treat the…
A: Given:- From the data r = 6.19×10-11 mv = 2.47×106 m/sB = 6.04×10-3T
Q: A student makes a short electromagnet by winding 380 turns of wire around a wooden cylinder of…
A: Given, The number of turns, N=380 The diameter of the wooden cylinder, d=2.1 cm=0.021 m Radius,…
Q: a particular point on Earth, the magnitude of the Earth's magnetic field is 2.50 x 10-5 T. At this…
A:
Q: When the current through a circular loop is 13 A, the magnetic field at its center is 2.2 × 10¯ª T.…
A:
Q: Four long, parallel conductors carry equal currents of I= 9.20 A. The figure below is an end view of…
A: Current , I = 9.20 AThe current direction is into the page at points A and B and out of the page at…
Q: A current of 20.0 mA is maintained in a single circular loop of 2.20 m circumference. A magnetic…
A: The current in the coil is .The circumference of the coil is .The number of loop is .The magnetic…
Q: One long wire lies along an x axis and carries a current of 64 A in the positive x direction. A…
A:
you have a circular loop of wire placed in the x-y plane. The current I=8A is flowing along clockwise through the loop if we look from above the xy plane. Calculate the magnetic dipole moment. Assume that the radius of the loop is R=10cm .
Step by step
Solved in 2 steps with 2 images
- A uniform magnetic field passes through a horizontal circular wire loop at an angle 19.5° from the normal to the plane of the loop. The magnitude of the magnetic field is 4.75 T, and the radius of the wire loop is 0.240 m. Find the magnetic flux through the loop. $= WbA strip of metal (made from copper, with 8.47 x 1028 charge carriers/m3) is placed in a uniform magnetic field of 0.621 T oriented perpendicular to the strip. A current is passed through the strip, giving rise to a Hall potential of 3.91 x 10-7 V across its thickness of 0.410 mm. What is the magnitude of the current passed through the strip?A flat copper ribbon 0.330 mm thick carries a steady current of 44.0 A and is located in a uniform 1.80 T magnetic field directed perpendicular to the plane of the ribbon. If a Hall voltage of 9.60 μV is measured across the ribbon, what is the charge density of the free electrons? m-³ What effective number of free electrons per atom does this result indicate?
- A student makes a short electromagnet by winding 530 turns of wire around a wooden cylinder of diameter d = 4.4 cm. The coil is connected to a battery producing a current of 4.1 A in the wire. (a) What is the magnitude of the magnetic dipole moment of this device? (b) At what axial distance z >> d will the magnetic field have the magnitude 6.7 µT (approximately one-tenth that of Earth's magnetic field)?A particle having mass m = 2.80E-4 kg carries a negative charge q= −1.70E-6 C . The particle is given an initial velocity in the −y direction (downward), as shown in the figure, of v = 3.65E2 m/s. Everywhere in space there is a uniform constant magnetic field B = 0.340 T pointing in the +z direction, which is out of the plane of the page. What is the radius of the cyclotron orbit trajectory that this particle will move along (in m)?The uniform 30 mT magnetic field in figure points in the positive z-direction. An electron enters the region of magnetic field with a speed of 3.0 x 106 m/s and at an angle of = 30° above the ry-plane. Find the radius r and the pitch p of the electron's spiral trajectory. z 4 V
- A particle having mass m = 2.80E-4 kg carries a negative charge q= −1.70E-6 C . The particle is given an initial velocity in the −y direction (downward), as shown in the figure, of v = 3.65E2 m/s. Everywhere in space there is a uniform constant magnetic field B = 0.340 T pointing in the +z direction, which is out of the plane of the page. What is the radius of the cyclotron orbit trajectory that this particle will move along (in m)?In a given region of space, the vector magnetic potential is given by A = x5 coszy + z(0.2+ sin zx) mWb/m. The magnetic flux passing through a square loop with 0.25 cm long edges if the loop is in the x-y plane, its center is at the origin, and its edges are parallel to the x- and y- axis?. A cylindrical solenoid has a length of 10 cm and a radius of 1 cm. It is tightly wound with 100 turns of wire. The axis of the solenoid is aligned with the z-axis, and the center of the solenoid is at the origin. The current flowing through the solenoid is 1.5 A. What is the magnetic field at the following points of interest? B, Tesla Point of interest x=0, y=0, z=2 cm x=0, y=0, z=200 cm x=0, y=2 cm, z=0 cm سا
- Two wires, parallel to a z axis and a distance 4.60 m apart, carry equal currents 3.61 A in opposite directions, as shown in the figure. A circular cylinder of radius 1.15 m and length 8.27 m has its axis on the z axis, midway between the wires. Use Gauss' law for magnetism to find the net outward magnetic flux through the half of the cylindrical surface above the x axis. (Hint: Find the flux through the portion of the xz plane that lies within the cylinder.)A particle having mass m = 2.80E-4 kg carries a negative charge q= −1.70E-6 C . The particle is given an initial velocity in the −y direction (downward), as shown in the figure, of v = 2.41E2 m/s. Everywhere in space there is a uniform constant magnetic field B = 0.340 T pointing in the +z direction, which is out of the plane of the page. What is the the magnetic force that B exerts on the particle (in N; use positive sign if the force points in the +x direction and negative sign if the force points in the −x direction)?