58 degrees because it is closer to 69 degrees.
88 degrees, because as temperature increases, speed of sound increases.
88 degrees, because as temperature increases, speed of sound increases.
Nope, sounds doesn't travel faster on space because a medium is needed a region to another
light travel faster than sound. see in real life we see lightning first then we hear the thunder.
The speed of light has nothing to do with the temperature of the vacuum. It is c = 299 792 458 meters per second. The speed of sound has much to do with the temperature of the air. At 0 degrees Celsius the speed of sound in dry air is c = 331.29 meters per second.
Under normal circumstances, no. The speed of light in a vacuum is roughly 300,000,000 meters/second, while the speed of sound through air is 340 meters/second. However light does not travel 3x109 m/s inside a medium, and recent experiments have shown there are ways to slow light down to a crawl. In such a medium, usually a crystal structure, sound could indeed travel faster than light.
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 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 faster in air at 20 degrees Celsius compared to 0 degrees Celsius. This is because the speed of sound increases with temperature, as the molecules move quicker and can transmit sound waves more efficiently.
Sound travels about 17 times faster in metals like steel compared to air. This is because metals have a higher density and stiffness, allowing sound vibrations to propagate more quickly through them.
NO they can not travel faster than sound in thunder and lightning
Depends on what they are traveling through- the denser the substance, the faster sound moves. It travels faster through water than through air. In air, the greater the air pressure, the faster it moves (denser air). The lower the temperature, faster the speed (cold air is dense). At sea level, 20 degrees Celsius, sound travels through air at 1126.547 ft/second- or about 768.095 mph
Depends on what they are traveling through- the denser the substance, the faster sound moves. It travels faster through water than through air. In air, the greater the air pressure, the faster it moves (denser air). The lower the temperature, faster the speed (cold air is dense). At sea level, 20 degrees Celsius, sound travels through air at 1126.547 ft/second- or about 768.095 mph
Because the molecules are less dense and they vibrate faster letting sound travel faster
Sound DOES travel faster in solids than in gases. The higher the density of the medium, the faster the sound travels.
The speed of sound at 30 degrees Celsius is approximately 343 meters per second in dry air. However, the speed of sound can vary depending on factors such as humidity and air pressure.
No, sound cannot travel faster than itself. Sound waves propagate at a specific speed in a given medium, such as air or water, and they cannot exceed that speed. The speed of sound varies depending on the medium through which it is traveling.
331 m/s
Sound travels faster in moist air