yes
The speed of sound increases by approx 0.6 metres/second for every Celsius degree increase in temperature.
Speed of sound would increase as the temperature of the air increases Speed of sound increases as humidity of air increases Speed of sound is affected by the density of the air. As density increases velocity of sound decreases
Yes, as air temperature increase so does the speed of sound. This is due to the individual air particles having extra kinetic energy at higher temperatures, allowing vibrations of sound waves to pass easily.
Pitch of sound in air does not affect the speed of sound.The speed of sound in air is also not affected by atmospheric pressure.Temperature does affect the speed of sound in air.Similar statements are not true for liquids or solids. It stops being true for gasses when pressure and temperature are near the point that the gas will liquify.
There are two facts. Those facts are temperature and molar mass.
The average speed of sound increases by approx 0.6 metres/second for an increase in temperature of each degree Celsius.
The speed of sound increases by approx 0.6 metres/second for every Celsius degree increase in temperature.
Speed of sound would increase as the temperature of the air increases Speed of sound increases as humidity of air increases Speed of sound is affected by the density of the air. As density increases velocity of sound decreases
Speed of sound increases with the increase in temperature of the medium .In fact the speed of sound is directly proportional to the square root of absolute temp. of the medium.
no
Yes, as air temperature increase so does the speed of sound. This is due to the individual air particles having extra kinetic energy at higher temperatures, allowing vibrations of sound waves to pass easily.
The speed of sound may vary, depending on:* On the type of gas * On the temperature * On the pressure
No. The speed of sound is dependent on air pressure and temperature.
Speed of sound increase when temperature increases.
The speed of sound increases by 0.6 metres per second for a unit increase in the absolute temperature, from 331.5 metres/second at 273.15 K.
Yes, The speed of sound in dry air is approximated by the equation: v = (331 + 0.6*T) m/s where T = temperature in degrees Celsius
There are two reasons. those ARE TEMPERATURE AND MOLAR MASS.