It should be about the same as the speed of normal sound. The speed of sound varies a bit, depending on the frequency, but usually that is not much.
Yes - on density but not frequency. Sound (of any frequency) travels much more rapidly through water, for example, than through air.
sonar can not be used outside water it is used under water to transmit sound waves through ultrasonic pulses
1454 m/s
Sound is softer in water than in a solid. This is because the density of water is thicker, which hinders the velocity of sound.
In fresh water, ~1500 m/s at 25°C
Because different conductive media (e.g., air, water, steel, etc.) have different effects on the overall speed of the wave. In order for there to be a specific baseline measurement of the wave's velocity, it must be done in a non-conductive medium to eliminate the value of any conductive medium from the equation.
Eric D. Swain has written: 'Effects of horizontal velocity variations on ultrasonic velocity measurements in open channels' -- subject(s): Stream measurements, Channels (Hydraulic engineering), Speed, Ultrasonic waves, Instruments 'A coupled surface-water and ground-water flow model (MODBRANCH) for simulation of stream-aquifer interaction' -- subject(s): Computer simulation, Streamflow, Groundwater flow
Speed of sound in water is affected by the oceanographic variables of temperature, salinity, and pressure. Look at the link: "How fast does sound travel in water?"
The speed all depends on the characteristics of the substance through which the sound is propagating. In air at standard temperature and pressure, it's 343 meters per second. It's much faster than that in metal, water, and rock.
Speed of sound has no effect on the particle velocity. Call velocity of sound better speed of sound. Call sound velocity better particle velocity. Velocity of sound is not sound velocity.
1.water 2.air 3.mercury 4.iron
What's fog? Fog is caused by the condensation of water molecules in air. This leads to the increase in the density in air. So, the layman answer can be: Velocity of sound is greater in Denser materials, so during fog velocity of sound is greater. Mathematicaly: v2=Bulk modulus/density =stress/strain*density we can say stress due to sound wave normally and in fog is constant. Therefore, v2 is inversely proportional to strain*density. during fog this value is less than normal, that's why velocity of sound wave in fog is greater.