sound does not travel through space because sound needs medium to travel..
58 degrees because it is closer to 69 degrees.
Yes. In air, sound travels at about 300 or 330 meters/second (it varies, depending on the temperature - also, sound in water or steel, for example, is quite a bit faster). But an electrical signal can go at about 2/3 the speed of light in a vacuum - that would be about 200,000 kilometers/second.
Sound travels faster in higher temperatures because in higher temperatures the molecules collide more often. Thus, as the temperature of the medium decrease, the speed of sound decreases. So in the summer.
The speed of sound at room temperature (around 20 degrees Celsius) is approximately 343 meters per second in air. The speed varies depending on the medium through which sound is traveling, with sound traveling faster in denser materials.
Lightning (an electrical discharge) always travels faster than the speed of sound. Lightning moves at thousands of miles per second through the air. The energy heats the air, to many thousands of degrees in temperature, and the rapid expansion of the air creates sound waves, called thunder. These sound waves travel through the air at about 1/5 of a mile per second, so that at any distance away from a lightning strike, the flash is seen before the thunder is heard.
Sound waves travel through particle vibration, and when the temperature is high, the particles vibrate faster, thus the sound must travel faster with particles.
Yes, sound travels faster in gases that have lower densities and higher elastic properties, such as helium and hydrogen. The speed of sound is determined by the temperature and composition of the gas it is traveling through.
Light travels much faster than sound, through wood.
Sound can travel, more or less, through any matter, but not at all through a vacuum. The main factors that affect the speed of sound are as follows: Temperature: Hotter materials allow sound to travel faster Density: Sound travels faster in denser materials Elasticity: This means the ability for the molecules of a material to bounce back to their original positions quicky. The more elastic a material, the faster sound can travel through it.
sound travel faster through soled because of tighter packed particles
Sound travels faster in a medium at a higher temperature. Therefore, sound will travel faster at 88 degrees Celsius compared to 58 degrees Celsius.
Speed of sound is proportional to absolute temperature. It should therefore travel faster in warmer weather.
sound travels faster through water than air.
Sound travels faster in solids compared to liquids and gases. This is because the molecules in solids are closely packed together, allowing sound waves to travel more efficiently through them. In general, the denser the substance, the faster sound will travel through it.
Sound travels faster through a solid than through a vacuum. In a solid, sound waves propagate through the material's molecules, leading to faster transmission. In a vacuum, there are no molecules to transmit sound, so it cannot travel at all.
Sound
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.