Yes, but the speed of sound is slower then. The formula to find the speed of sound in air is as follows: c = 331 m/s + 0.6 m/s * T (°C)
c is the speed of sound and T is the temperature of the air. One thing to keep in mind is that this formula finds the average speed of sound for any given temperature. The pitch of woodwind instruments and pipe organs goes down, when the temperature goes down.
temperature to an object with a low temperature
Sound travels faster when the air is warm
Sound travels faster in steel than in air, regardless of temperature.
It depends on the medium and the temperature. The warmer and thicker the medium the faster the sound travels.
The more closely packed molecules are in a medium, the faster sound travels through the medium, so sound travels slowest through a gas under low pressure.
This is a low temperature. It travels in less than 340ms-1.
sound travels fastest in cold
Sound travels at 350 m/s at room temperature. At 21 C it travels at 343.6 m/s.
The sound travels faster through a dense medium. Colder temperatures are generally more dense, thus sound travels faster at a lower temperature.
Sound travels faster as temperature increases, so there is no limit. There is an equation to determine the speed of sound at a given temperature.
temperature to an object with a low temperature
Sound travels faster when the air is warm
Sound travels more slowly through a medium when it is at a low temperature because in a low temperature the molecules move slower and in a high temperature the molecules move faster. For Example: ice that is frozen and boiled water in ice the water doesn't move as fast so the molecules were slower than in the boiled water. HOPE I HELPED YOU!!
the material through which it travels...temperature....
Light travels at 186,000 miles per second. Sound travels at around 765 m.p.h., but that can cary a bit depending on temperature and humidity.
because god decided to make it like that
Essentially it is the density and temperature of the air which determines the speed of sound therein.