Wavelength= 218.8
Submarine volcanoes can also be called "shield volcano," they are volcanoes that are underwater. There is one volcano that is half underwater and half over-water.That volcano is called "Bora Bora."
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
Infrared waves have lower frequency and longer wavelengths than X-rays. They are both transverse waves, travel at the same speed in vacuum (3 x 108 ms-1) and do not require a material medium for their transmission. Infrared is non-ionizing, x-rays are ionizing.
obcidien
Wavelength = (speed) / (frequency)Speed of light/radio/microwave = 3 x 108 meters per secondWavelength in the microwave oven = (3 x 108) / (2.4 x 109) =0.125 meter12.5 centimeters125 millimeters125,000,000 nanometersabout 4.9 inches
The wavelength decreases. Frequency and wavelength are inversely related.
The frequency at which a microwave oven operates, about 2,450 MHz, has a wavelength of about 12 cm.
When a sound passes from one medium to another of different [non-zero] density, its speed and wavelength change, but its frequency doesn't. It doesn't matter what either medium is, or what source produced the sound.
Submarine volcanoes can also be called "shield volcano," they are volcanoes that are underwater. There is one volcano that is half underwater and half over-water.That volcano is called "Bora Bora."
An object vibrating relatively slowly produces sound waves that have low frequency and long wavelength.
Volcanoes underwater erupt in much the same way as those on dry land. They erupt when pressure builds up. The difference between these two types of volcanoes is that the lava produced in an underwater volcano cools dramatically faster than the lava on land.
2.0Hz.
The wavelength of the radiation produced by a 2.70 GHz microwave is approximately 11.1 centimeters.
Speed = (frequency) x (wavelength) = (36) x (12) = 432 meters per second.Isn't this a pretty high speed for sound in air . . . ? ? ?
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.
There should be a note somewhere on the oven stating the frequency of the waves produced. It's normally around 2.5gigahertz. You can use this to workout the wavelength. The speed of the microwaves is the same as the speed of light, 3x10 to power of 8 metres per second. To get the wavelength you divide the speed by the frequency; 300 000 000m/s divided by 2 500 000 000waves/s which gives 0.12metres or 12cm.
Each note has a specific frequency. The frequency is defined by the wavelengths produced by the sound. Just as FM radio stations each have specific frequencies (ie: 96.5), musical notes are the same. Think of an image of a wavelength. The more squiggles, the higher the frequency, and the higher the pitch.