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When a 440 Hz sound is sent through steel a wWhat is the speed of a sound wave that has a wavelength of 1.2 meters and a frequency of 250 Hz?
When a 440 Hz sound is sent through steel, a wavelength of 11.6 meters is measured. What is the velocity of the sound through steel
What is the difference between gaussmeter and magnetometer?
Gauss meter_ Sensitive AC Gauss meters and EMF meters for measuring AC magnetic fields (50 Hz & 60 Hz Emf) Magnetometer- an instrument used for measuring magnetic forces, especially the earth's magnetism.
If the frequency of the musical note is 26.6 Hz and the speed of sound is 345 meters per second what is the wavelenght of the musical note in meters?
To calculate the wavelength of the musical note, you can use the formula: wavelength = speed of sound / frequency. Plugging in the values gives: wavelength = 345 m/s / 26.6 Hz = 12.97 meters. So, the wavelength of the musical note is approximately 12.97 meters.
What is the frequency of 220 Hz and a wavelength of 3 meters?
The frequency of 220 Hz with a wavelength of 3 meters can be calculated using the formula v = fλ, where v is the velocity of the wave. Assuming the velocity is the speed of sound in air (343 m/s), we can rearrange the equation to solve for frequency: f = v/λ = 343/3 = 114.33 Hz. Therefore, the frequency is approximately 114.33 Hz.
What is the speed of light in hurtz?
Hz (hertz) is a unit of frequency, not of speed.
Is a note with a frequency of 262 hz lower than a note with a frequency of 880 hz?
Oh, dude, you're hitting me with some math vibes here. Yeah, like, 262 Hz is totally lower than 880 Hz. It's like comparing a sleepy kitten's purr to a rock concert. So, yeah, the 262 Hz note is definitely on the chill end of the frequency spectrum.
What is the wavelength of middle C on a piano as it travels through air at standard temperature and pressure (the key of C is at 262 Hz)?
The wavelength of middle C on a piano at 262 Hz in air at standard conditions of temperature and pressure is approximately 1.29 meters. This can be calculated using the formula: wavelength = speed of sound / frequency. At standard conditions, the speed of sound in air is around 343 meters per second.
Is the frequency of 262 Hz lower than a not of a freqency of 880 Hz?
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.
What is 262 137.2 Meters?
262,137.2 meters is 162.88 miles.
What is the wavelength of middle C on a piano as it travels through air at standard temperature and pressure when The key of C is at 262 Hz Calculate your answer to the nearest tenth of a meter?
45 centimeters
How many centimeters are there in 262 meters?
There are 100 centimetres in one metre. Therefore, 262 metres is equal to 262 x 100 = 26200 centimetres.
How do you convert 262 meters into feet?
Multiply by 3.2808
What is the speed of a wave that is 8 meters and a frequency of 3 Hz?
(8 meters) x (3 Hz) = 24 meters per second
What is the speed of a wave with a wavelength of 0.2 Hz and a frequency of 100 meters?
The speed of a wave is calculated by multiplying its wavelength by its frequency. Therefore, the speed of the wave with a 0.2 Hz wavelength and 100 meters frequency would be 20 meters per second (0.2 Hz * 100 meters = 20 m/s).
What is the speed of a wave with a frequency of 0.2 Hz and a wavelength of 100 meters?
To find the speed of the wave, you can use the formula: speed = frequency x wavelength. Given the frequency is 0.2 Hz and wavelength is 100 meters, you can calculate the speed of the wave as 0.2 Hz x 100 meters = 20 meters per second.
How many kilometers is 262 miles?
42164.8128 meters are in 26.2 miles
What is the speed of a wave that has a frequency of 1.5 Hz and a wavelength of 2 meters?
The speed of a wave can be calculated using the formula: speed = frequency x wavelength. Given that the frequency is 1.5 Hz and the wavelength is 2 meters, the speed of the wave would be 3 meters per second (1.5 Hz x 2 meters).
