30C.
Sound is the vibrations of air molecules. In other words, the movement of particles. The hotter something is, the faster the particles are moving. So if the particles move faster, "sound" will move faster.
Sound travels faster in warmer temperatures. At 30 degrees Celsius, sound will travel faster than at 15 degrees Celsius. This is because sound travels faster in warmer air due to the higher average speed of air molecules.
Sound travels about 15 times faster in steel compared to air.
Sound travels via particle-to-particle vibrations around a mean position; this means that the more particles there are, the better the sound travels. Therefore, sound travels faster through iron than through water or air. Sound travels through iron roughly 15 times faster than through air. The more dense the solid, the better the sound transfer. Sound will travel the fastest in solids since the molecules are more tightly packed together, allowing sound to travel through the medium faster. Then comes liquids, then gases. Sound travels fastest on earth because there is no sound in space! since there's no medium in space for sound to travel through.
sound is a wave and so it travels in a medium. Air, water, or lack there of (space)Speed of sound - Wikipedia, the free encyclopediaSound travels faster in liquids and non-porous solids than it does in air. It travels about 4.3 times faster in water (1484 m/s), and nearly 15 times as ...Basic concept - Basic formula - Dependence on the properties ... en.wikipedia.org/wiki/Speed_of_sound - Cached - Similarso it would follow that sound travels faster in space but due to the extreme lack of particles in space it would be very hard to actually hear.
Sound waves travel faster through solids than through liquids or gases, with speeds ranging from around 2 to 15 km/s depending on the material. The speed of sound in a solid is determined by the material's elasticity and density.
30 c
Sound travels faster in warmer temperatures. At 30 degrees Celsius, sound will travel faster than at 15 degrees Celsius. This is because sound travels faster in warmer air due to the higher average speed of air molecules.
Sound travels about 15 times faster in steel compared to air.
Sound travels via particle-to-particle vibrations around a mean position; this means that the more particles there are, the better the sound travels. Therefore, sound travels faster through iron than through water or air. Sound travels through iron roughly 15 times faster than through air. The more dense the solid, the better the sound transfer. Sound will travel the fastest in solids since the molecules are more tightly packed together, allowing sound to travel through the medium faster. Then comes liquids, then gases. Sound travels fastest on earth because there is no sound in space! since there's no medium in space for sound to travel through.
sound is a wave and so it travels in a medium. Air, water, or lack there of (space)Speed of sound - Wikipedia, the free encyclopediaSound travels faster in liquids and non-porous solids than it does in air. It travels about 4.3 times faster in water (1484 m/s), and nearly 15 times as ...Basic concept - Basic formula - Dependence on the properties ... en.wikipedia.org/wiki/Speed_of_sound - Cached - Similarso it would follow that sound travels faster in space but due to the extreme lack of particles in space it would be very hard to actually hear.
Sound waves travel faster through solids than through liquids or gases, with speeds ranging from around 2 to 15 km/s depending on the material. The speed of sound in a solid is determined by the material's elasticity and density.
The distance that sound travels in 15 seconds depends on the medium it is traveling through. In air at room temperature, sound travels approximately 4,500 meters (4.5 kilometers) in 15 seconds.
In common everyday speech, speed of sound refers to the speed of sound waves in air. However, the speed of sound varies from substance to substance. Sound travels faster in liquids and non-porous solids than it does in air. It travels about 4.3 times faster in water (1,484 m/s), and nearly 15 times as fast in iron (5,120 m/s), than in air at 20 degrees Celsius.
it is 15 times faster in iron (5,120 miles a second) than in air at 20 degrees celsius
On water because on land there are trees and other plants and buildings to block the sound but on water there are no buildings trees and plants on the surface! Hope this helped :)That does not have much to do with it. sound travels through denser gas or liquid faster. "In common everyday speech, speed of sound refers to the speed of sound waves in air. However, the speed of sound varies from substance to substance. Sound travels faster in liquids and non-porous solids than it does in air. It travels about 4.3 times faster in water (1,484 m/s), and nearly 15 times as fast in iron (5,120 m/s), than in air at 20 degrees Celsius".Air at sea level is about 800 times less dense than saltwater. additionally sound waves that travel through the air and waves that travel through dense liquids and solids are different
To determine which greyhound is faster, we can calculate their speeds. Fluffy travels 15 m in 2 seconds, giving a speed of 7.5 m/s (15 m ÷ 2 s). Tiberius travels 20 m in 3 seconds, resulting in a speed of approximately 6.67 m/s (20 m ÷ 3 s). Therefore, Fluffy is the faster greyhound.
15 times faster