No. The denser the material, the faster sound moves through it.
The speed of light through air at sea level is roughly881 thousand times the speed of sound.
The speed of sound through the medium also increases.
The speed of sound varies, depending on what material it goes through.
because it does
No. The denser the material, the faster sound moves through it.
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 speed of light through air at sea level is roughly881 thousand times the speed of sound.
The speed of sound through the medium also increases.
simply air
The speed of light is the speed at which electromagnetic waves propagate through a medium. The speed of sound is the speed at which acoustic waves propagate through a medium. As the speed of sound relies on the medium moreso than the speed of light, sound propagates much slower than light.
A blackbird doesn't go "through the speed of sound", it moves through the air.
The medium through which it is propagating. For exampl if the sound waves are travelling in air they will move slower than those travelling through a wall speed of sound in solids > speed of sound in liquids > speed of sound in gases
The speed of sound varies, depending on what material it goes through.
It depends on the substance the sound is traveling through. If the sound is traveling through air, it is usually about 800km/h. If it is traveling through water, the speed is about 4000km/h. If it is traveling through cosmos, its speed is 0km/h.
It depends very much on the medium which the sound has to travel through. Sound will not travel through a vacuum at all. Sound will travel faster through materials that are more dense, so that the speed of sound through solids and liquids is faster than the speed of sound through gases. In Earth's atmosphere, the speed of sound is faster at sea level than the speed of sound at high altitude. Generally, the speed of sound through air at sea level and normal temperatures is about 340 metres per second, while the speed of sound through a steel bar is about 5000 metres per second. However, the speed of sound through solids can be two different discrete values, depending on the mode of vibration propagation - compression waves or slower shear waves.
No why would the speed of sound will stay the same