Newton's formula for the velocity of sound in a gas is (p=density of gas, p=pressure
Answers
According to Newton, when sound waves propagate in air, compression and rarefaction are formed. He assumed that the process is very slow and the heat produced during compression is given to surrounding and heat loss during compression is gained from surrounding. So the temperature remains constant and sound waves propagate through an isothermal process.
Derivation of Newton's Formula
According to gas law (Boyle's law),
PV = constant
where, P = pressure
V = volume of air
Differentiating above equation, we get
Differentiation of Boyle's Law
where, B is the bulk modulus of the air.
If B is the bulk modulus of the air, v is velocity and ρ is the density, then, velocity is given by:
Relationship of velocity or air with bulk modulus and density
This is the required expression for velocity of sound in air
Calculation of Velocity of air
Now, the velocity of sound in air using Newton's formula at NTP (Normal Temperature and Pressure) is given by:
Pressure (P)= 1.1013 * 105 N/m2
Density of air (ρ) = 1.293 kg/m3
Calculation of velocity of sound in air with Newton's formula
the velocity of sound in a gas . where k= bulk's modulus of gas. when sound wave travel through a gas the
compression and rarefaction
are formed.