MN is a straight current carrying conductor located at the y axis; the intensity of the electrical current is 100 A directed outward from the origin to the infinity on the positive y axis. M (0, 1, 0), N (0, 10, 0), the magnetic field intensity H at the point P (0.1, 2, 0) is Select one: a. 78.8 A/m b. 158.75 A/m c. None of the above d. 51.93 A/m e. 38.36 A/m
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- A) A particle, with charge -5 µC, moving (along -x axis) with the speed 5.3 x 106 m/s enters in a uniform magnetic field 'B' of 0.7 T directed downward(-y axis), produced by a conductor of length 43 cm. Find the magnitude of current passing through the conductor. What will be the direction of the maximum magnetic force acting on the particle.A 32.7 A current flows in a long, straight wire. Find the strength of the resulting magnetic field at a distance of 61.3 cm from the wire. TA square wire loop is on the x and y plane with the center is located on the origin (zero), and the sides are 20cm long. The wire has a 5.0A current traveling clockwise. What is the magnetic field vector at the origin? What is the magnetic field vector at x=5cm, y=0cm? What is the magnetic field vector at x=15cm, y=0cm?
- A circular region 4.00 m in radius is filled with an electric field perpendicular to the face of the circle. The magnitude of the field in the circle varies with radius and time as E(r, t) = Arcos (@t) where A = 1000. V/m² and w = 3.00 x 10⁹ s¨¹. What is the maximum value of the magnetic field at the edge of the region? i TA conducting bar moves with a speed v= 10.2 m/s along parallel frictionless conducting rails connected on one end by a resistor R=2.50. A uniform 0.65 T magnetic field is directed out of the page. What is the current (in A) in the resistor? Bout R Select one: O A. 1.19 B. 1.60 Ос. 1.03 OD. 0.79 OE. 1.44 45 cmLong straight wires are parallel. The first wire is x -axis and positive x runs in it -axis current 3.4 A . The second conductor intersects y -axis at y=51 mm and positive x runs through it -axis current 5.6 A What is the magnitude of the magnetic field (μ T) in the middle of the power wires?
- The diagram shows two long straight wires carrying the following currents in the directions shown:I1 = 3.2 AI2 = 0.8 AThe net magnetic field at P, which is 1.8 cm from I1 and 2.5 cm from I2, is the vector sum of the fields from both wires. Calculate in tesla the magnitude of the net magnetic field at P.A charged particle moves through a velocity selector at constant velocity. The velocity selector is configured with "crossed" electric and magnetic fields of magnitude E = 1.50 x 104 N/C and B = 0.4 T. %3D Hint a. What is the velocity of the charged particle? Velocity of the charged particle is x 104 m/s. b. When the electric field is turned off, the charged particle travels in a circular path of radius 6 mm, as it travels through the magnetic field (still at B = 0.4 T). What is the mass-to-charge ratio of the particle? Hint for (b) Mass-to-charge ratio of the part is kg/C. (Use the "E" notation to enter your answer in scientific notation. For example, to enter 3.14 × 10´ 12".) - 12 enter "3.14E-Different units can be used to measure the same physical quantity, differing only by some multiplicative factor. The cgs unit for magnetic field, the gauss, is equal to tesla. O 104 104 O These units do not measure the same physical quantity. O 0.5
- Please give me the correct answer. ASAP!A point charge Q moves on the x-axis in the positive direction with a speed of 644 m/s. A point P is on the y-axis at 43 mm. The magnetic field produced at point P, as the charge moves through the origin, is equal to -6.24 µT in the +z direction. When the charge is at x = 53 mm, what is the magnitude of the magnetic field at point P (in μ.)? μT