331.3 m/s.
what is the speed of sound if the temperature is 50o C
At 50 degrees Celsius, the speed of sound in water is approximately 1,503 meters per second.
The wavelength of a wave is the wave speed divided by the frequency, so you have to know the speed of the wave then divide it by the frquency. You will probably want to change thr frequency to just hz if the speed is m/s, or leave it as khz if the speed is in km/s.
The Fahrenheit temp is what temperature it would be without any wind. So without knowing the wind speed at least there is no way to answer your question This link has a chart on it that shows the formula you need to get your answer http://www.nws.noaa.gov/om/windchill/
The Barrett M107 .50 caliber sniper rifle is known to shoot faster than the speed of sound. The speed of sound is approximately 1,125 feet per second, while the Barrett M107 has a muzzle velocity of about 2,800 feet per second.
what is the speed of sound if the temperature is 50o C
It depends on the speed of sound considered for the situation, as sound can travel at different speeds depending on the temperature of the air, its density, composition, etc. For all types of waves (sound waves included), the wavelength is equal to the speed of the wave, divided by its frequency. So, if you consider the speed of sound to be 330 m/s, the wavelength in question would be equal to 330/50, or 6.6 meters. If you consider the speed to be 340 m/s, the wavelength would be 6.8 meters.
Thunder travels at the speed of sound, which is approximately 1,125 feet per second (343 meters per second) in air at room temperature. The speed of sound can vary depending on temperature and humidity levels in the atmosphere.
At 50 degrees Celsius, the speed of sound in water is approximately 1,503 meters per second.
Sound Waves move at an elastic speed determined by the medium it's traveling in - for air, it's dependent on the temperature and humidity of the air the sound is traveling in as to how fast sound will travel.Sound moves at different speeds in different mediums - in dry air at 68 degrees F, it travels at about 768mph.The Sound Barrier is considered that speed at which sound is traveling, or Mach 1. When a supersonic aircraft moves past the speed of sound in air, it is said to go through the sound barrier. This is denoted on the ground as a "sonic boom", very common in the 50's and 60's around America, but less so today because of noise considerations in heavily populated areas. The crack of a whip is another example of an object moving through the sound barrier - the "crack" you hear is the tip of the whip breaking the barrier as it moves faster than the sound it made.
The wavelength of a wave is the wave speed divided by the frequency, so you have to know the speed of the wave then divide it by the frquency. You will probably want to change thr frequency to just hz if the speed is m/s, or leave it as khz if the speed is in km/s.
The air carries the sound. If you shouted on the moon, nobody would hear you as there is no atmosphere
The Fahrenheit temp is what temperature it would be without any wind. So without knowing the wind speed at least there is no way to answer your question This link has a chart on it that shows the formula you need to get your answer http://www.nws.noaa.gov/om/windchill/
50 degress at 80 outside temp
One thing that can cause a knocking sound in that area is the air temperature blend door banging.If you're having any trouble with changing the temperature settings, be sure to check out the "Related Question" for this (relatively) easy - $50 repair
Sound conduction through air is dependent on temperature and the strength of the sound, but sound can travel extremely far in the air. The 1883 eruption of Krakatoa volcano (Level 6 on the Volcanic Scale. The eruption was equivalent to a 200 megaton blast, or 13,000 times that of the Hiroshima bomb, and 4 times that of the largest nuclear device ever detonated, the Tsar Bomba, at 50 megatons. The eruption was heard over 3,000 miles away.
The Barrett M107 .50 caliber sniper rifle is known to shoot faster than the speed of sound. The speed of sound is approximately 1,125 feet per second, while the Barrett M107 has a muzzle velocity of about 2,800 feet per second.