Anemometers (pictured) are used to measure wind speeds. Wind striking the cups c
ID: 2038056 • Letter: A
Question
Anemometers (pictured) are used to measure wind speeds. Wind striking the cups causes the assembly to rotate; a gauge measures the frequency of this rotation and translates the data into wind speed. The length of each arm, as measured from cup to cup, is 0.425 m. The friction in the bearings is negligible so the tangential speed of the cups matches the wind speed fairly closely bulb Your company makes anemometers and plans to install light bulbs on them for high wind warnings. The idea is to attach a coil of wire of radius 0.132 m to one of the arms and use the EMF induced by the magnetic field of the Earth to light the bulb. The bulbs possess 234 Q of internal resistance but need 12.5 W of rms power dissipation to be visible at night. (The resistance of the wire is negligible.) coil Although company management wants this new feature, you have doubts about its practicality. Assuming the magnetic field of the Earth is 0.500 x104 T and is oriented roughly horizontal with the Earth, and that 42.2 m/s (94.5 mph) is considered the threshold of dangerous wind speed, calculate the number of turns in the coil wire needed to light the B V wind bulb Number Incorrect. Most likely you incorrectly equated the 281441 urns ength of each arm with the radius of motion.Explanation / Answer
w = v / r = 42.2 / 0.425 = 99.29 rad/s
E = N B A 2 w / sqrt 2
sqrt [P * resistance ] = N B A 2 w / sqrt 2
sqrt [12.5 * 234] = N * 0.5 * 10-4 * (pi * 0.1322) * 2 * 99.29 / sqrt 2
54.08 = N * 3.84 * 10-4
N = 140717 turns