When pilots get closer to the speed of sound it gets harder for the plane to fly. It could also depend on the how the pilot flees.
Sound travels faster closer to the ground than in the air because the speed of sound is influenced by the temperature and composition of the medium it is traveling through. As sound moves closer to the ground, it encounters denser air, which conducts sound waves more efficiently than the less dense air higher up. This results in faster sound transmission closer to the ground.
Speed of sound in water is faster than in air. Speed of sound in steel is c = 5930 m/s. That is faster than in air and in water. Speed of sound in water is c = 1480 m/s. It is affected by the oceanographic variables of temperature, salinity, and pressure. Speed of sound in air is c = 343 m/s at 20°C = 68°F. The speed of sound changes clearly with temperature, a little bit with humidity - but not with air pressure (atmospheric pressure).
Sound travels faster in solids than in air or liquids because the particles in a solid are closer together, which allows sound waves to transfer energy more efficiently. The closer proximity of particles in a solid results in faster transmission of vibrations, leading to a higher speed of sound.
The speed of sound waves will increase when they travel from air to water. This is because sound travels faster in water due to water molecules being closer together, allowing the vibrations to propagate more quickly.
According to the table the medium that sound travels at fastest speed is the electromagnetic waves.
Sure. Air Force pilots do it fairly frequently.
Fighter pilots don't use sound to communicate, they use radios, and radio waves travel far faster than any plane to date, so there is no trouble communicating.
Sound travels faster through denser media because their molecules are closer together.
Sound travels faster through denser media because their molecules are closer together.
The speed of sound is greatest in solids, as the particles are closer together and can transmit vibrations faster. In general, the speed of sound increases with an increase in density and elasticity of the medium.
Between 3200 and 3600 m/s, the closer together the particles are in a substance are, the faster sound can travel through it. This is why these values are much higher than the 343 m/s, the speed of sound in air.
usually there ears
Sound travels faster closer to the ground than in the air because the speed of sound is influenced by the temperature and composition of the medium it is traveling through. As sound moves closer to the ground, it encounters denser air, which conducts sound waves more efficiently than the less dense air higher up. This results in faster sound transmission closer to the ground.
Speed of sound in water is faster than in air. Speed of sound in steel is c = 5930 m/s. That is faster than in air and in water. Speed of sound in water is c = 1480 m/s. It is affected by the oceanographic variables of temperature, salinity, and pressure. Speed of sound in air is c = 343 m/s at 20°C = 68°F. The speed of sound changes clearly with temperature, a little bit with humidity - but not with air pressure (atmospheric pressure).
I believe it has to do with the fact that the atoms are closer together. The forces between the atoms probably also affect the speed of sound.
Sound travels faster in solids than in air or liquids because the particles in a solid are closer together, which allows sound waves to transfer energy more efficiently. The closer proximity of particles in a solid results in faster transmission of vibrations, leading to a higher speed of sound.
The speed of sound waves will increase when they travel from air to water. This is because sound travels faster in water due to water molecules being closer together, allowing the vibrations to propagate more quickly.