The speed of sound does not depend on the wavelength or frequency of the sound wave. It is mainly determined by the properties of the medium it travels through, such as temperature and density.
It is all about the nature. Temperature causes the sound speed.
The speed of sound depends on the air factors around it
There are some factors. Temperature, medium are that factors.
The speed of sound c in air under normal conditions is only dependent on the temperature. It is independent of the air pressure p.Reason: The air pressure p and the air density rho are proportional to each other at the same temperature. Hence, the speed of sound in air, which depends on the ratio of p to rho, is constant. Therefore the speed of sound in air is the same on a mountain peak as it is at sea level, provided that the temperature is the same.On the other hand, if you change from one gas to another, the speed will depend on density. For example, Argon gas and Helium gas at the same temperature and pressure will have very different densities and this will result in very different speeds for sound. In that case, the speed of sound is proportional to the inverse of the square root of the molecular mass. For more details see the related links.The speed of sound in solids will be much faster than in a liquid, but there is no simple relationship to the density in that case. For example, iron and aluminum have very different densities, but almost the same speed for sound.
There are two factors if it is a metal. Those are elasticity and density.
speed of sounds depend on nuthing!!
The speed of sound does not depend on the wavelength or frequency of the sound wave. It is mainly determined by the properties of the medium it travels through, such as temperature and density.
Time and distance
It is all about the nature. Temperature causes the sound speed.
The speed of sound depends on the air factors around it
The medium in which it travels through
The speed of sound in a medium is affected by several factors, including the density and elasticity of the medium. Generally, sound travels faster in materials with higher elasticity and lower density. Temperature and pressure also play a role in influencing the speed of sound.
There are some factors. Temperature, medium are that factors.
The speed of sound through a medium depends on the density of the medium and the density of air is affected by temperature.
The speed of sound c in air under normal conditions is only dependent on the temperature. It is independent of the air pressure p.Reason: The air pressure p and the air density rho are proportional to each other at the same temperature. Hence, the speed of sound in air, which depends on the ratio of p to rho, is constant. Therefore the speed of sound in air is the same on a mountain peak as it is at sea level, provided that the temperature is the same.On the other hand, if you change from one gas to another, the speed will depend on density. For example, Argon gas and Helium gas at the same temperature and pressure will have very different densities and this will result in very different speeds for sound. In that case, the speed of sound is proportional to the inverse of the square root of the molecular mass. For more details see the related links.The speed of sound in solids will be much faster than in a liquid, but there is no simple relationship to the density in that case. For example, iron and aluminum have very different densities, but almost the same speed for sound.
The speed of light in a vacuum is constant and does not depend on external factors like temperature. However, when light passes through a medium other than a vacuum, such as air or water, its speed can be affected by factors like the refractive index of the medium.