A device is using the Hall- effect with a 0.9mm iron slab [the coefficient is = 1.1 x 10-11], %3D if the current has a value of 1.9 Amp and the magnet flux is 4950 Gause, determine the output voltage.
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- Determine the minimum atomic percentage of Co²+ in a cubic Co2+-ferrite magnetic material that has a saturation magnetization of 5.0 x 105 A/m. at%A magnet weights 60 gm and it magnetic moment is 3 x 103 Am². It the density of material of magnet is 1.20 × 10' kg/m³, then find intensity of magnetisation.Can we apply eddy current inspection plastic? Give a reason why
- a = 3 [cm], b = 7 [cm], h = 2 [cm], µr = 700, N = 85 [tur], I = 5 [A]. Calculate the total magnetic flux intensity within the cross section of the winding as [µWb / m2] or [µT] numerically (micro µ = 10-6)? Magnetic Flux Intensity Φ: Cross section integral of magnetic induction. Φ = ∫SB*ds Tolerance is nominally 0.1 [µWb / m2]. µo = 4π*10-7 [H / m].Find H at (-3,4,0) due to infinite L shape Current Filament of 5A in the (-az) and bend at 2=0 to direct to the ay directionA square with side lenght b freely around the z-axis rotatably attached. 2nd this ring carrying ampere current is directed in the +x direction and with B0 density area has been applied. To the edges of the surface forces applied and calculate the torque it will create.
- Detefminea pair f hof; Zonkal and vecat mcomponeatsof 340 N focce of Fig- 340 17 15 (14 x+The Hall effect is to be used to find the density of charge carriers in an unknown material. A Hall voltage 40 uV for 3-A current is observed in a 3-T magnetic field for a rectangular sample with length 2 cm, width 1.5 cm, and height 0.4 cm. Determine the density of the charge carriers.A Hall probe calibrated to read 1.00 µV when placed in a 2.00-T field is placed in a 0.150-T field. What is its output voltage?
- Pls help ASAPa = 3 [cm], b = 7 [cm], h = 2 [cm], µr = 700, N = 85 [tur], I = 5 [A]. Calculate the total magnetic flux intensity within the cross section of the winding as [µWb / m2] or [µT] numerically (micro µ = 10-6)? Magnetic Flux Intensity Φ: Cross section integral of magnetic induction. Φ = ∫SB*ds Tolerance is nominally 0.1 [µWb / m2]. µo = 4π*10-7 [H / m].Using Maxwell's Mesh Current Analysis, determine all the loop current 11, 12 (with 4- ohm resistor), 13 of the network shown below. (Non-anonymous question) * 5.00 W 10.0V, 0.500 8.0V, 0.300 5.00 X H 6.0V, 0.100 I₁ 1₁ 4.00 Z