That is correct. 262 Hz is the frequency of the note "middle C" on a piano keyboard, while 880 Hz is the frequency of the note A one octave above the note A above middle C on a piano keyboard.
The atlas moth is the largest saturniid moth which originated in Indonesia. The average wing span of the moth is 262 millimeters.
28% Cr, 4.5% W, balance Co reference: http://www.stellite.com/Technical/AlloyDatabase/tabid/262/Default.aspx
Answer: 80 m = 262.467 ' Direct Conversion Formula 80 m* 1 ft 0.3048 m = 262.4671916 ft
216 inches is equal to 18 feet (216/12=18)
395.9 km Algebraic Steps / Dimensional Analysis Formula 246 mi*63360 in 1 mi*2.54 cm 1 in*1 km 100000 cm=395.898624 km Direct Conversion Formula 246 mi*1.609344 km 1 mi=395.898624 km
Question is to be corrected as to find the velocity of the sound waves Formula for velocity of the wave = frequency x wavelength Given frequency = 262 Hz and wavelength = 1.3 m So velocity = 262 x 1.3 = 340.6 m/s
Hertz is a unit of frequency, not a unit of length like the meter. You can't convert that.
The greater the number the higher the frequency. Zero frequency is called DC in electricity. Audio frequencies start at 20 Hz (Hertz= cycles per second) and go up to 20,000 Hz. Adults usually can't hear above 12,000 Hz so this is why the teenagers use a ring tone of 13,000 Hz while in school. The teachers can't hear it. Refer to kHz which is 1,000 Hz. There for 20 kHz is 20,000 Hz.
frequency is the term used to describe how often something happens in a given amount of time. sound frequencies are measured in Hertz abbreviated as Hz which describes how many times the sound wave vibrates every second. For example Middle C in music is measured as approximately 262 Hz. That is the frequency that the note of Middle C vibrates at every second. But frequency does not only refer to sound. Waves on the beach have a frequency that can be measured, as do many other things. Anything that happens over and over with regular timing has a frequency.
As far as I know there are only a few phenomenon that cause vibration. Heat, sound, and mechanical vibration. Most materials experience all three, such as a guitar or piano string. The frequency of mechanical vibration is equal to the note, 262 Hz for middle C for instance. Sound would be at the sound's frequency. !0,000 times for second on a 10 kHz sound. Heat changes the amount the particle moves in amplitude and frequency with 10 raised to the power of 13 being the frequency.
Quicker Than the Eye has 262 pages.
30% of 262= 30% * 262= 0.3 * 262= 78.6
35% of 262= 35% * 262= 0.35 * 262= 91.7
% rate= 2.62 * 100%= 262%
262
262
252,340 of course !