The molecular weight of oxygen gas (o2) is 32 while that of hydrogen gas (h2) is 2.

prove that under same physical conditions, the velocity of sound in hydrogen is four times that in oxygen

Question

Physics

Mary York

3 March, 22:14

The molecular weight of oxygen gas (o2) is 32 while that of hydrogen gas (h2) is 2.

prove that under same physical conditions, the velocity of sound in hydrogen is four times that in oxygen

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Answers (1)

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Bernard Lang · Answer 1

use the formula: v^2 = (3kT) / m

Where:

v is the velocity of a molecule

k is the Boltzmann constant (1.38064852e-23 J/K)

T is the temperature of the molecule in the air

m is the mass of the molecule

For an H2 molecule at 20.0°C (293 K):

v^2 = 3 * 1.38e-23 J/K * 293 K / (2.00 u * 1.66e-27 kg/u)

v^2 = 3.65e+6 m^2/s^2

v = 1.91e+3 m/s

For an O2 molecule at same temp.:

v^2 = 3 * 1.38e-23 J/K * 293 K / (32.00 u * 1.66e-27 kg/u)

v^2 = 2.28e+5 m^2/s^2

v = 478 m/s

Therefore, the ratio of H2:O2 velocities is:

1.91e+3 / 478 = 4.00

The molecular weight of oxygen gas (o2) is 32 while that of hydrogen gas (h2) is 2.prove that under same physical conditions, the velocity of sound in hydrogen is four times that in oxygen

The molecular weight of oxygen gas (o2) is 32 while that of hydrogen gas (h2) is 2.

prove that under same physical conditions, the velocity of sound in hydrogen is four times that in oxygen