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Sound travels through brick at the speed of 3650 meters per second. Sound is a mechanical wave that can travel through many different types of media, such as water, cork, gold, and glass.
The limitation is the absorption of the energy over distance. This depends on the frequency of the sound and the medium through which it travels.The sound of a door slammed in the Hamilton Mausoleum in Hamilton, Scotland, travels over 5000 metres before fading away.
Sound travel as successive compressions and rarefactions.that means it comes closer and moves far .EXAMPLE:| | | | | | | | | | | | | |
The speed of sound at 20°C is 343 m/s or 1236.3 km/h all over the world. In USA they need for the speed of sound at 68 degrees Fahrenheit 1126.713 feet per second or 768.2 miles per hour. Important is the temperature.
Yes, they do. The frequency of a sound doesn't effect the speed at which it moves; i.e. approx 330meters per second (through air). For example; a sound with a frequency of 600Hz has the same velocity as a sound with frequency 300Hz, the difference being that the sound at 300Hz would have half as many wavelengths in the same distance from source as the sound at 600Hz.
10 metres
2191.21 meters per second.
1125
Sound travels through brick at the speed of 3650 meters per second. Sound is a mechanical wave that can travel through many different types of media, such as water, cork, gold, and glass.
"ms" in this case is short for "meters per second". It means that sound advances that many meters every second.
340.29 meters per second at sea level.
Velocity is measured in metres per second, to find how many metres a body has travelled you need t know the length of time it was moving for. If a body moves at 10 metres per second for 5 seconds, how far does it travel? It goes 10 metres every second, so in 5 seconds it must go 5 times 10 metres; 50 metres. You need to multiply the velocity by the time taken. (m/s) X s = m.
1,100 feet per second = 66,000 feet per minute
30 metres per second
There are 299792458 metres.
The limitation is the absorption of the energy over distance. This depends on the frequency of the sound and the medium through which it travels.The sound of a door slammed in the Hamilton Mausoleum in Hamilton, Scotland, travels over 5000 metres before fading away.
It doesn't. Nothing to travel through.