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Q: A 5 T uniform magnetic field is oriented horizontally with respect to this page. A 3.0×10^ -6 C…
A: Field, B = 5 T Charge, q = 3×10-6 C Velocity, v = 1000 m/s Angle between field and velocity, θ = 90°
Q: Some possibly useful numbers = 8.99 x 10° N m2/C2 €0 = 8.85 x 10-12C²/Nm2 4TEO %3D = 10-7Tm/A e =…
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Q: In the figure below, the current in the long, straight wire is I₁ = 2.70 A, and the wire lies in the…
A: The current in the long straight wire is I1 = 2.70 A.The current in the rectangular loop is I1 =…
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 particle with a charge of +6.0 µC and a speed of 420 m/s enters a uniform magnetic field whose…
A: Given that charge of the particle and speed of the particle and magnitude of uniform magnetic…
Q: The bent wire shown in the figure lies in a uniform magnetic field. Each straight section is 1.46 m…
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Q: The bent wire shown in the figure lies in a uniform magnetic field. Each straight section is 1.96 m…
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Q: One component of a magnetic field has a magnitude of 0.0244T and points along the +x axis, while the…
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Q: In the figure below, the current in the long, straight wire is I₁ = 8.80 A and the wire lies in the…
A: Given data, Currents, I1=8.8 AI2=10 A
Q: In the figure below, a long wire carrying a current I = 3.75mA is bent in a circular section with…
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Q: A charged particle is inside a uniform magnetic field. Which scenario is the magnetic force on the…
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Q: The diagram below shows a long wire with a right angle bend. A current of I = 2.88 A flows through…
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Q: A particle of charge q = 15 mC is moving with a speed of 2.4 10* m/s in the +x direction in a…
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Q: In the figure below, the current in the long, straight wire is I, = 3.40 A and the wire lies in the…
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Q: The two wires shown in the figure below are separated by d = 11.4 cm and carry currents of I = 4.95…
A: The magnetic field due to wire is given as, The resultant magnetic field is equal to the…
Q: wire carries a stable current of 2.40A. A straight section of the wire is 0.750 m long and lies…
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Q: Two wires carry the same current of I = 85.0 A and are oriented perpendicular to the plane of the…
A: Given data: Current I1=I2=85.0A
Q: In the figure below, the current in the long, straight wire is I1 = 3.00 A and the wire lies in the…
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Q: In the figure below, the current in the long, straight wire is I, = 7.00 A and the wire lies in the…
A: Force due to wires carrying the current in the same direction is attractive whereas it is repulsive…
Q: In the figure below, the current in the long, straight wire is I₁ = 7.00 A and the wire lies in the…
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Q: Consider the following figures. (a) Find the direction of the force on a proton (a positively…
A: Given that:
Q: A particle of mass “M” and charge “+Q” Travels at a velocity “V” in a plane perpendicular to a…
A: Since you have posted a question with multiple sub-parts, we will solve the first three sub parts…
Q: In the figure below, the current in the long, straight wire is I, = 6.20 A and the wire lies in the…
A: Given: Current I1=6.20A Curren I2=10.0A c=0.100m a=0.150m l=0.410m
Q: proton moves perpendicular to a uniform magnetic field B at a speed of 1.70 107 m/s and experiences…
A: When a charge is present in magnetic field it will experience magnetic force. Due to magnetic force…
Q: Several electrons move at speed 6.10 × 105 m/s in a uniform magnetic field with magnitude B = 0.300…
A: Speed of electrons (v) = 610000 msMagnetic field strength (B) = 0.30 T magnitude of charge on…
Q: A long, straight wire carrying a current of 311 A is placed in a uniform magnetic field that has a…
A: Given: The current in the wire is 311 A. The strength of the magnetic field is 6.44x10-3 T. The wire…
Q: Consider a straight current-carrying wire of length 1 oriented perpendicular to a magnetic field of…
A: Force on wire segment, F' = ILB = 1.5 N Force on semicircle, F = ?
Q: In the figure below, the current in the long, straight wire is I, = 8.40 A and the wire lies in the…
A: Force on a current carrying conductor in an external magnetic field F = i(L × B) L = length vector…
Q: Several electrons move at speed 8.50 × 105 m/s in a uniform magnetic field with magnitude B = 0.380…
A: Concept: The electrons moving in External magnetic field experience a force called Magnetic force.…
Q: A long, straight vertical segment of wire traverses a magnetic field of magnitude 2.50 Tas shown.…
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A conductive wire is arranged on the surface of the cube whose sides are 40 cm as shown. The wire is in the same magnetic field B = 0.02 T j. If the conductor is energized by an
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- Each of two long straight parallel wires 5 cm apart carries a current of 100 A. The figure shows a cross section, with the wires running perpendicular to the page and point P lying on the perpendicular bisector of the line between the wires. Find the magnitude and direction of the magnetic field at P when the current in the left-hand wire is out of the page and the current in the right-hand wire is also out of the page. (I have attached a photo of the figure) a)What is the magnitude of B? b)What is the value of Bx? c)What is the value of By? Find the magnitude and direction of the magnetic field at P when the current in the left-hand wire is out of the page and the current in the right-hand wire is into the page. d)What is the magnitude of B? e)What is the value of Bx? f)What is the value of By? g)What is the value of Bz?A wire with four right-angle bends carries a current of 3.2 Amps in the direction shown by the arrowheads in the diagram. The wire is within a region where a uniform magnetic field is applied given by the array of X’s in the diagram. The magnitude of the magnetic field is 8 mT. Determine the net force the magnetic field exerts on the wire. Express your answer in terms of components and unit vectors.A straight, vertical wire carries a current of 2.60 A downward in a region between the poles of a large superconducting electromagnet, where the magnetic field has magnitude B = 0.588 T and is horizontal. What are the magnitude and direction of the magnetic force on a 1.00-cm section of the wire that is in this uniform magnetic field, if the magnetic field direction is south;
- Several electrons move at speed 5.00 × 10^5 m/s in a uniform magnetic field with magnitude B = 0.500 T directed downward. Find the magnetic force on the electron at point c where the velocity of the electron maks a 30 deg angle with the horizontal, pointing to the upper right. Enter a positive value if the direction of magnetic force is out of the page and enter a negative value if the direction of magnetic force is in to the page. Use E-scientific notation. Round to 2 decimal places.Uniform magnetic field B is shown in the image as blue-color arrows in the horizontal direction. A wire of lengths L carrying current, i, is place on the page perpendicular to the magnetic field flowing up. What is the direction and magnitude of the magnetic force on the current-carrying wire?A proton, with a charge Q = 1.60 × 10-19 Coulombs has an initial velocity as shown below with a magnitude of v = 2.50 × 105 m/s. Take the proton mass to be M = 1.67 x 10-27 kg. The proton moves in a plane perpendicular to a 3.00 Tesla uniform magnetic field a. Calculate the radius, in meters, of the circular path followed by the proton. With respect to the magnetic field lines, are the orbits in the clockwise or counterclockwise sense? b. Calculate in seconds the amount of time needed for the proton to complete a circu- lar orbit. c. Calculate the frequency in Hertz of the circular orbits.
- A long, straight wire carrying a current of 344 A is placed in a uniform magnetic field that has a magnitude of 7.54 × 10-3 T. The wire is perpendicular to the field. Find a point in space where the net magnetic field is zero. Locate this point by specifying its perpendicular distance from the wire.The bent wire shown in the figure lies in a uniform magnetic field. Each straight section is 1.76 m long and makes an angle of θ=60.4o with the x axis, and the wire carries a current of 1.46 A. What is the net magnetic force on the wire in unit-vector notation if the magnetic field is given by (a)4.53k T? (b)3.65i T?In the figure below, the current in the long, straight wire is I, = 6.00 A and the wire lies in the plane of the rectangular loop, which carries a current I, = 10.0 A. The dimensions in the figure arec = 0.100 m, a = 0.150 m, and e = 0.380 m. Find the magnitude and direction of the net force exerted on the loop by the magnetic field created by the wire. magnitude | µN direction Select--
- A electron is moving in a region with uniform magnetic field B with direction as shown below. What is the direction of electron's velocity v if the magnetic force F on it is directed as depicted in the figure? Assume v and B are perpendicular. X X xBin X X X F X X X ○ right ○ out of the page ○ down ○ left O into the page ○ upA particle of mass 9.02 g and charge 63.5 μC moves through a uniform magnetic field, in a region where the free-fall acceleration is -9.8 m/s² without falling. The velocity of the particle is a constant 18.27 km/s, which is perpendicular to the magnetic field. What, then, is the magnetic field? Number ( i Ĵ+ i k) UnitsThe bent wire shown in the figure lies in a uniform magnetic field. Each straight section is 1.07 m long and makes an angle of θ=74.9o with the x axis, and the wire carries a current of 2.84 A. What is the net magnetic force on the wire in unit-vector notation if the magnetic field is given by (a)3.98 k̂ T? (b)3.54 î T?