1.8. A coil of wire carries a current in counter-clockwise. If the observer could "see" the magnetic field inside this arrangement of loops, how would it appear? (11) x x x x x X хх (b)
Q: (3ỉ + 83) × 106 m/s, it experiences a force F = -2.7 × 10-13 k N. When a proton has a velocity v =…
A: velocity of the proton, v=3i+8j×106 m/sForce experienced, F=-2.7×10-13k^ NLet the magnetic field be…
Q: An electron of kinetic energy 5.5 kev moves in a circular orbit perpendicular to a magnetic field of…
A: Given: Kinetic energy KE=5.5keV. Magnetic field is B=0.390T.
Q: A 3.2 C charge moving at 240 m/s in a magnetic field experiences a magnetic force of magnitude 10.2…
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Q: A 1.50 x 10-5 C charge feels a 2.89 x 10-3 N force when it moves 288 m/s perpendicular (90°) to a…
A: Given data: Charge (q) = 1.50×10-5 C Force (F) = 2.89×10-3 N Velocity (v) = 288 m/s Angle (θ) = 90°…
Q: 12. A uniform magnetic field is perpendicular to the plane of a circular loop of diameter 0.10 m…
A: Given ,Diameter of circular loop, D= 0.10 mDiameter of wire, d = 3.6 x 10-3 mResistivity, ρ = 1.99 x…
Q: A negatively charged particle with a mass of 8.4x10-27 kg is travelling at a velocity of 5.6x105 m/s…
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Q: A charged particle with a velocity of 500 m/s moves perpendicular to a magnetic field of strength…
A: Charge (q) = 2Velocity (v) = 500 m/sMagnetic field strength (B) = 0.1 T
Q: An electron beam travelling through a cathode ray tube is subjected to simultaneous electric and…
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Q: A 1.50 m long conductor is placed in a 0.23 T magnetic field as shown. Find the magnitude and…
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Q: A 5.47 C point charge is moving with a speed of 6.98 m/s. It is moving perpendicular to a magnetic…
A: Charge (q) = 5.47 C Speed (v) = 6.98 m/s Magnetic field (B) = 6.28 T
Q: hat is the radius of a proton's trajectory when it moves at 2.4x106 m/s perpendicular to a magnetic…
A: Given: The speed of the proton is 2.4x106 m/s perpendicular to the magnetic field. The strength of…
Q: QUESTION 1 For problem 28.2, assume a mass of 4.0 g and solve for the required magnetic field, B…
A: Solution:-Given thatmass (m)=4 g=0.004 kgcharge (q)=80 μC=80×10-6 Cacceleration (a)=-9.8 j^…
Q: An electron accelerated accelerated from rest through a potential difference of 4000 volts enters…
A: Magnetic field.
Q: What is the magnitude of the deflecting force is exerted on a charge of 35.2 µC moving at 6.5 x107…
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Q: An air-filled solenoid has a diameter 10.5 cm and a length 5.58 cm, and it has 653 turns of wire. If…
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Q: be produced with a maximum speed of 4.8×107 m/s? Give answer to 2 decimals.
A: Given B = 0.77 T maximum speed vmax = 4.8×107 m/s charge on proton q = 1.6×10-19 C mass of…
Q: A proton is moving in a circular orbit of radius 39.6 cm with a speed of 3.7*10^6 m/s in a uniform…
A: Given data: The radius of orbit is r=39.6 cm×1 m100 cm=0.396 m. The velocity of proton is v=3.7×106…
Q: proton is accelerated from rest in a circular orbit of diameter 10.16 cm through a magnetic field…
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Q: If a magnetic field B = (4.70î + 4.45j) × 10-2 T passes through the area A = (4.00 x 10-1 m2)î,…
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Q: A proton is going 28 m/s when it is exposed to a 3 magnetic field (see below) and begins moving in a…
A: Given: Velocity of proton v =28 m/s Magnetic field B = 3 T Charge q = 1.6 ( 10-19) C Mass m= 1.67 (…
Q: A single ionized uranium ion of mass 8.9 x 10-25 kg is accelerated through a potential difference of…
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Q: Suppose a supersonic jet has a net positive charge and flies due east at a speed of 710 m/s over…
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Q: 1. An alpha-particle (m= 6.64 10 0-27 kg; q = 3.2.10-19 C) travels in a circular path of radius 30…
A: Given data : Mass of alpha particle m = 6.64 × 10-27 kg Charge of alpha particle q = 3.2 × 10-19 C…
Q: A high power line carries a current of 4.7 kA. What is the strength of the magnetic field this line…
A: Given data: Current (I) = 4.7 kA = 4.7×103 A Distance (r) = 7.25 m μ0 = 4π × 10-7 T∙m/A Required:…
Q: ANS 4. An electron accelerates from rest through an electric field and into a magnetic field as…
A: The kinetic energy gained by an electron is calculated as, K.E=qV, Where q is the the charge of the…
Q: A proton moves at a speed of 3.7 × 10^7 m/s at right angles to a magnetic field with a magnitude of…
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Q: An electron at point A in the figure (Figure 1) has a speed v0v0 of 1.40×106 m/s. Find the…
A: velocity of electron = 1.40×106 m/s radius of semicircle ( R )= 10/2 cm= 5 cm let the magnetic…
Q: A proton (m = 1.67 x 10-27 kg, q = 1.60 x 10-19 C) is moving in a 3.23 x 10-4 T magnetic field in a…
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Q: Find the radius of a proton's orbit when it moves perpendicular to a magnetic field of 0.76 T with a…
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Q: Let the field be the Earth's magnetic field, at 4 * 10 ^ - 5 T. The electron follows a circular path…
A: The Earth's magnetic field is B = 4 x 10-5 TThe electron follows a circular path of radius r = 4…
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- Find the direction of the magnetic field acting on a positively charged particle moving in the various situations shown if the direction of the magnetic force acting on it is as indicated.Calculate the magnitude of the force on an electron moving at (8.0x10^0)×106 m/s at an angle of (2.890x10^0) degrees to a magnetic field of (5.62x10^-1) Tesla. Give your answer in Newtons to 2 s.f.An electromagnetic wave is traveling in a vacuum. At a particular instant for this wave, E = [(32.0)î + (−64.0)ĵ + (80.0)] N/C, and B = [(0.160)î + (0.580)ĵ + (0.400)] µT. (a) Calculate the following quantities. (Give your answers, in µT · N/C, to at least three decimal places.) Determine the component representation of the Poynting vector (in W/m2) for these fields.
- Let's take the Earth's magnetic field BE = 1.70 x 10-4 T pointing north. A metal cable attached to a space station stretches by 1.4 km. What would be the potential difference ( ΔΔ V) that develops between the ends of the cable if it’s traveling eastbound around Earth with a speed 4.4 km/s?What is the force acting on a 1.6(10)–19 C charge when it is moving at 3(10)7m/s perpendicular to a magnetic field whose strength is 0.02 T? What is the radius of the particle’s trajectory if the mass of the particle is 3.3(10)-27 kg?An electron is moving in a circular orbit of radius 2 mm in a uniform 0.50 T magnetic field perpendicular to the velocity of the electron. What is the speed of the electron? Consider: The charge of an electron = 1.6 x 10-19 C The mass of an electron = 9.1 x 10-31 kg !3! 878
- Find the radius of a proton's orbit when it moves perpendicular to a magnetic field of 0.81 T with a speed of 6.48×105 m/s in centimeters.A carbon-12 ion has a charge-to-mass ratio of 8.04 x 10^6 C/kg. Calculate the radius of the ion’s path when the ion travels at 150 km/s perpendicular to a 0.50 T magnetic field.An electron ( me = 9.11x1031 kg. q=1.6x10-91 C) moves in a circular path perpendicular to a uniform magnetic field with a magnitude of 7.3 mT. If the speed of the electron is 1.50 x107 m/s, determine the radius of the circular path ( in units of cm). Select one: A. 0.62 B. 1.17 С. 1.72 D. 1.44 E. 0.04