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Q: V = 3.2V I= 2.4 Elkctnc motor %3D a, (denver) = 9.796MISIS 2.1 23 dy = 1.66 m 2.06 Power Sorce time:…
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Use the loop rule to determine the voltage at a with respect to b. The boxes can be sources or loads. Include the polarity (sign). Use Vab=Va-Vb
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- An accelerating voltage of 2.71 x 10³ V is applied to an electron gun, producing a beam of electrons originally traveling horizontally north in vacuum toward the center of a viewing screen 32.7 cm away. What is the magnitude of the deflection on the screen caused by the Earth's gravitational field? What is the direction of the deflection on the screen caused by the Earth's gravitational field? O up down O east west m What is the magnitude of the deflection on the screen caused by the vertical component of the Earth's magnetic field, taken as 20.0 μT down? mm What is the direction of the deflection on the screen caused by the vertical component of the Earth's magnetic field, taken as 20.0 μT down? O north O south O east O west Does an electron in this vertical magnetic field move as a projectile, with constant vector acceleration perpendicular to a constant northward component of velocity? O Yes O No Is it a good approximation to assume it has this projectile motion? O Yes NoDescribe two ways in which you can test Ohm's Law.Why do power lines near your home contain transformers? A Transformers increase the current flowing into your home. B The transformers reduce the voltage to a level the wires in your house can safely carry. C The transformers increase the voltage supplied to your home during peak usage times. D Transformers decrease resistance in the power lines.
- This homework problem is giving me some issues, help would be greatly appreciated! Thanks!5. Find the missing currents, X, and Y. Indicate whether the currents flow in or out of the junctic Y = X= Does X flow in or out? 3 A Does Y flow in or out? 4 A 2 A 7 A X=? Y =? Show all work in the space below and place answers at the bottom of the page. 5 A J2. The capacitor in the figure below is initially uncharged and the switch, in position c, is not connected to either side of the circuit. The switch is now flipped to position a for 10 ms, then to position b for 10 ms, and then brought back to position c. What is the final potential difference across the capacitor? 12 V 150 Ω ww a b 40 μF 150 Ω