The velocity of sound in the air is about 330 m/s.
The velocity of sound in a liquid is about three times that. But varies widely with liquid.
The velocity of sound in a solid body is about 4 or 5 times that of the sound in air. But once again, it varies widely with the solid.
hint, check the values for lead and tungsten.
As temperature increases, so does molecular velocity, which also means volume increases.
The slope of a temperature vs time graph shows the rate of change of temperature. The slope will be positive if the temperature is increasing with time and negative if it is decreasing.
If your acceleration is zero, then yes, you are traveling at a constant speed. The path does not matter. Acceleration measures the change in velocity, so an acceleration of zero means that there is zero change in velocity and therefore the speed is constant.
The temperature ... is related ... to the temperature? Please check the question and ask again.
The equatorial rotation velocity of dwarf planet Pluto is approximately 56 feet per second.
when the temperature of the air is 25 degrees Celsius, the velocity of a sound wave traveling through the air is approx.
rarefactionoccurs only in-wave
7
In dry air it is 346 metres per second. As humidity increases, the speed increases to 348 ms-1.
c = sqrt(adiabatic index*R*T) ~= sqrt(1.4*287*298) ~= 346 m/s.
No. An object traveling at a constant velocity is not accelerating.
At 25o C, the speed of sound in air, in a standard atmosphere, is about 774 mph.For more details and formula for calculation, see Related links below.
At 25 Deg C, the speed of sound is 756 MPH. The standard measurement for the "speed of sound" is 20 Deg C, in which sound travels at 768 MPH.
Velocity is a constant traveling speed. Acceleration is increasing traveling speed (variation of speed over time)
No. Acceleration is change of velocity / time. If there is no change in velocity, there is no acceleration.
When something is traveling at a constant velocity it has no acceleration. In other words your answer is 0.
by finding the velocity