Three wires, each carrying 10 A are oriented in a vertical plane with a separation of 2cm as shown below. A charged sphere (+2 µC) of mass 2 µg is moving horizontally at a distance of 5cm from the top wire, on earth. What is the magnitude magnetic field experienced by the moving charge? (µT) V 5 cm 10 A 2 cm 10 A 2 cm 10 A
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°
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Q: An electron moves in a circular path with a speed of 1.30 x 10 m/s in the presence of a uniform…
A: In the given case the centripetal force for circular motion is provided by the magnetic force. Hence…
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Q: Two long straight parallel wires are 1.65 m apart and carry current in the opposite directions. Wire…
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Q: In the figure, point P2 is at perpendicular distance R = 28.3 cm from one end of straight wire of…
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Q: As shown in the figure below, two long parallel wires (1 and 2) carry currents of I₁ = 2.88 A and I₂…
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Q: The figure below shows two wires carrying currents of I = 4.55 A in opposite directions, separated…
A: The magnetic field in both wire due to cross sectional current will be zero.
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Q: An electron moving with a velocity 4.9 x10° m/s in a magnetic field B= 5.7 x1oSTwill move in a…
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Q: In the figure, point P2 is at perpendicular dístance R = 28.2 cm from one end of straight wire of…
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Q: An electron moves in a circular path with a speed of 1.23 ✕ 107 m/s in the presence of a uniform…
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Q: Calculate the magnitude of the B-field at 'p'. Submit Answer Tries 0/99 Calculate the y-component of…
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Q: ou observe an electron moving on your screen in a clockwise circle of radius 5.74 cm, at a constant…
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Q: Three wires, each carrying 10 A are oriented in a vertical plane with a separation of 2cm as shown…
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Q: A force F = ( 6×10^-3 N)i - (4×10^-3 N)j - (8×10^-3 N)k is acting on a charge q = -2×10^-9 C moving…
A: Step 1: Step 2: Step 3:
Q: A long straight wire has a current of 0.581A travelling through it. The wire is placed so that the…
A: For the long straight the magnetic field is written as; B =μoI2πr ----(1) Here we have I is the…
Q: An electron (me = 9.11 x 10-31 kg, q = -1.602 x 1o-19 c) travels at 3.0 x 10' m/s perpendicular to a…
A: Solution:-Given thatme=9.11×10-31 kgq=-1.602×10-19 Cspeed (V)=3×107 m/sMagnetic field (B)=1.2…
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- A proton is accelerated in a particle accelerator from rest through a potential difference of 0.130 kV. If the proton then passes through a uniform magnetic field of magnitude 0.120 T that is perpendicular to the proton's path, what is the radius of the path that the proton will take through the magnetic field? Give your answer in cm. (The mass of a proton is 1.672*10^-27 kg.)An electron moves at speed of 16.36*107 m/s perpendicular to a magnetic field. The field causes the electron to move in a circular path of radius 4*10-4 m. Find the magnetic field strength, B (in T). Mass of electron=9.1 *10-31 Kg.A wire carrying 9.2 A of current is bent into a circular arc with a radius of 0.5 cm. The magnetic field at the center of the arc is 9.7 X 10 T. What arc does the wire sweep out? radians
- = A very long wire carries an i₁ 4 A current along the x axis and another long wire carries an i2 = 9.5 A current along the y axis. What is the magnetic field at point P located at a = 7.9 m and b = 3.8 m? Use out of the page as the positive direction. y i₂ a The magnetic field at P, B = i₁ P b Units HT XThe figure below shows two wires carrying currents of I = 4.55 A in opposite directions, separated by a distance d. Assume d = 8.3 cm. (a)Find the magnitude (in µT) and direction of the net magnetic field at a point halfway between the wires. what is the magnitude µTdirection, (b)Find the magnitude (in µT) and direction of the net magnetic field at point P1, 8.3 cm to the right of the wire on the right. magnitude µTdirection, (c)Find the magnitude (in µT) and direction of the net magnetic field at point P2, 2d = 16.6 cm to the left of the wire on the left. magnitude µTdirection, (d) What If? Repeat parts (a) through (c) for the case where both wires carry currents in the same direction, upward in the figure.Find the magnitude (in µT) and direction of the net magnetic field at a point halfway between the wires. magnitude µTdirection, Find the magnitude (in µT) and direction of the net magnetic field at point P1, 8.3 cm to the right of the wire on the right. magnitude µTdirection, Find…A charged particle with a charge to mass ratio of 5.7E8 C/kg travels on a circular path that is perpendicular to a magnetic field whose magnitude is 0.84 T. How much time does it take for the particle to complete one revolution?
- As shown in the figure, two long, straight current-carrying wires (1 and 2) are attached at right angles to a board by wire brackets. The current in wire 1 is 6.87 A in the positive y direction and the current in wire 2 is 5.00 A in the positive x direction. The points A and B are a distance r = 0.200 m from both wires. Determine the magnitude of the net magnetic field at points A and B. _____ Point A _____ Point BDisregard the charge off to the right. The diagram above shows segments of two long straight wires, carrying currents. This time, I1 = 9.42 A and I2 = 4.89 A; the separation between the wires is 7.88 cm. How far to the right of wire #1 will be total magnetic field due to both wires be equal to zero? 9.34 cm 5.19 cm 2.60 cm 6.23 cmAn ion carrying a single positive elementary charge (+e) has a mass of 4.22x10-27 kg. It is accelerated through an electric potential difference of 1.29 kV and then enters a uniform magnetic field of B = 0.2 T along a direction perpendicular to the field. What is the radius of the circular path of the ion in the magnetic field? (Units: cm)