The first has a frequency that is 226.5625 times at high.
5.12 m is equal to 512 cm
You can't compare that. You can compare mb with kb, or mbps with kbps.
Alternating current changes direction on a set frequency such as 50 Hz, 60 Hz or 400 Hz. Direct current always flows in one direction.
116 KHz means 116,000 per second.
ye3s if you compare it to cod5 then you can see a large difference
Higher notes have higher frequencies. A typical tuning fork vibrates at 440 Hertz. That's the tone of the A above middle-C on a piano. The A one octave higher is 880 Hz (2 x 440 Hz). The A one octave above that is 1760 Hz (2 x 880 Hz). The A below middle-C is 220 Hz (440 Hz ÷ 2), the next lower A is 110 Hz, and so on. The lowest note on a piano is 27½ Hz, and the highest is 4186 Hz.
The range of human sound frequencies is typically between 20 Hz to 20,000 Hz. This range is similar to many other mammals, but some species like bats and dolphins can hear higher frequencies up to 200,000 Hz.
It is: 512 because 1*512 = 512 and 16*32 = 512
55% of 512= 55% * 512= 0.55 * 512= 281.6
x -512 = 0 Add 512 to both sides of the equation. x = 512
The normal male vocal range typically spans from about 110 Hz to 440 Hz. This range is lower than the female vocal range, which usually falls between 220 Hz to 1,176 Hz. Male voices are generally categorized into bass, baritone, and tenor, with bass being the lowest and tenor being the highest.
512 = 29 512 x 512 = 262144 = 218