Wavelength = about 68 meters
This question can't be answered as asked. A string vibrating at its fundamental frequency has nothing to do with the speed of the produced sound through air, or any other medium. Different mediums transmit sound at different speeds. The formula for wavelength is L = S/F, were L is the wavelength, S is the speed through the medium and F is the frequency. Therefore, the wavelength depends on the speed of sound through the medium and directly proportional to the speed and inversely proportional to the frequency.
Amplitude and wavelength are independent of each other. There is no such formula.
-- Frequency and wavelength of a wave are inversely proportional. So knowing one of them determines what the other one must be. -- Amplitude has no relationship to frequency or wavelength, and no effect on them.
Speed is (Length/Time). Wavelength is (Length), and Frequency is (1/Time).Speed = (Wavelength)*(Frequency). With a constant speed, Wavelength and Frequency are inversely proportional to each other. So if one increases, the other decreases.
um it would be (approximately) the same wavelength of the green light in nanometers instead of any other color wavelength it would nanometers.
5 Waves Per Second 0.2 Second
Elephant
It's possible that you have a broken hanger on your muffler or tailpipe. This will cause one or the other to hit the car body and transmit the noise so it sounds like it's inside. It's possible that you have a broken hanger on your muffler or tailpipe. This will cause one or the other to hit the car body and transmit the noise so it sounds like it's inside.
This question can't be answered as asked. A string vibrating at its fundamental frequency has nothing to do with the speed of the produced sound through air, or any other medium. Different mediums transmit sound at different speeds. The formula for wavelength is L = S/F, were L is the wavelength, S is the speed through the medium and F is the frequency. Therefore, the wavelength depends on the speed of sound through the medium and directly proportional to the speed and inversely proportional to the frequency.
Amplitude and wavelength are independent of each other. There is no such formula.
The best known sound of an elephant is called a "trumpet." Trumpeting is done during times of excitement, aggression, or distress. It can be used as a warning or caution. The onomatopoeia spelling is rarely used, the versions "prrumph," "ahrunngh," and "hrrannhhh" being interchangeable for other animals, depending on the tone. Elephants also roar, squeal, bellow, and rumble. These sounds can signify injury, be threatening, or tell another elephant they are in the mood for some loving. Some elephant sounds are infrasonic and can be heard by other elephants for up to six miles. It is believed that elephant's have a large vocabulary all of their own.
you stress the "e" which sounds like an "e" in "Elephant". All the other letters are pronounced as in regular english: B as in BBQ, S as in Sandwich, O as in office.
-- Frequency and wavelength of a wave are inversely proportional. So knowing one of them determines what the other one must be. -- Amplitude has no relationship to frequency or wavelength, and no effect on them.
there are special news monkeys. They are flying monkeys that travel across the ocean to other countries and find news and spy on them when they fly back to Brazil they go to the paper elephant and talk into there ears and these elephant vomit out newspapers out of there trunks. It sounds complex but works well.
the same as other mammals
It depends whether they are an induvidual or socialising elephant or if they are popular with their other elephant friends.
African elephants communicate through sounds and body language. Sounds include sounds that we can hear, such as the famous trumpeting sound, which is usually a response to a surprising stimulus. Sounds also include a lot of very low pitch rumblings, which pass through their feet and then travel for many miles through the ground, where other elephants can sense the sounds. That's a means of long distance communication.