To find the speed of sound in hydrogen at Normal Temperature and Pressure (NTP) given that the speed of sound in air is 332 m/s and the density of hydrogen is (1/16) that of air, we can follow these steps:1. Understand the relationship
In addition, many different things move in similar forms of waves, like water, strings, air (sound waves), the earth or ground, and light. Furthermore, the wavelength of the wave is represented by the Greek symbol lambda (λ). Furthermore, the wave's wavelength is equal to the wave's...
To find the speed of sound in air, we can follow these steps:Step 1: Understand the Formula The speed of sound in a medium can be calculated using the formula: \( v = \sqrt{\frac{\gamma \cdot P}{\rho}} \) where: - \( v \) = spe
The speed of sound in air is directly proportional to the square root of the absolute temperature of the air. Let the speeds of sound in the air at the absolute temperatures {eq}T_1 \ \text{and} \ T_2 {/eq} be {eq}v_1 \ \text{and} \ T_2 {/eq} respectiv...
The speed of sound in air is around 768 mi/hr (1,125 ft/sec, 343m/sec), or about 5 seconds per mile, or 3 seconds per kilometer.
The speed of sound in air depends on several conditions: temperature, pressure, humidity and CO2content. Pressure affects the mass density or inertia of air, while temperature affects the particle interaction or elastic property of air. An approximate formula for the speed of sound through air in...
This lesson explains the concept of speed in physics. It contrasts it with velocity, presents its formula, and shows how to calculate it to solve...
Log In Sign Up Subjects Science Physics Sound What is the speed of sound in mph?Question:What is the speed of sound in mph?Speed of Sound:The speed of sound is based on the medium in which it moves and the temperature of the medium. In dry air at 20 degrees Celsius sound moves...
AIR speedSPEED of soundTHERMAL expansionThe general dependence of the sound speed has been calculated in a two-phase system, such as liquid gas and gas liquid, as a function of the concentration of an additional phase and thermodynamic parameters of the mixture. It is shown that in limiting ...
Since one speed of sound is equal to 34,300 centimeters per second, you can use this simple formula to convert: centimeters per second = speed of sound × 34,300 The speed in centimeters per second is equal to the speed in speed of sound multiplied by 34,300. For example, here'...