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the speed of sound of water at 25 degrees centigrade is 1497 m/s.
There is no such temperature.
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.
Yes, with the correct drill using the correct bit, at the correct speed and drilling pressure, (Add a little patience, skill and good luck.)
Probably a worn or loose belt
Frequency and speed of propagation of the wave are independent of one another. The medium determines the speed of propagation.
Only the temperature is changing the speed of sound.
The exact same way it travels in air or any other medium. By propagation - from one atom to the other.However the Speed of propagation (speed of Sound) will be very different depending on the composition of the solid. It tends to speed up in a solid vs air.
Different materials have different velocities of sound propagation.
Different is the speed of propagation. Scroll down to related links and look at "Acoustic or sound waves in air - Radio and light waves in a vacuum".
Propagation rate of burn exceeds the speed of sound ... i.e. it's a sonic boom.
Sound waves are longitudinal waves that is the the particles of the wave vibrate parallel to the direction of propagation of the wave. They cannot be polarized. Speed of sound in air is about 340 m/s.
Sound waves are longitudinal waves that is the the particles of the wave vibrate parallel to the direction of propagation of the wave. They cannot be polarized. Speed of sound in air is about 340 m/s.
Sound waves are longitudinal waves that is the the particles of the wave vibrate parallel to the direction of propagation of the wave. They cannot be polarized. Speed of sound in air is about 340 m/s.
No, a sound wave is not electromagnetic, it is a pressure wave in the air. The speed of propagation is about 1100 ft/second, so 1 mile in 5 seconds.
Nothing. Frequency doesn't control the speed of a wave. Increase in frequency will reduce the wavelength of the wave to keep the velocity constant (v=nu x lambda)
... wave's speed of propagation.