By using ideal gas theory, the density of the hydrogen gas is 40.88 g/L.
We need to know the ideal gas theory to solve this problem. The ideal gas theory can be represented by this equation
P . V = n . R . T
where P is pressure, V is volume, n is the number of molecules, R is the ideal gas constant (8.314J/K⋅mol), and T is temperature.
to get the density we can write the equation to
P . V = (m/Ar) . R . T
m / V = P.Ar / (R . T)
ρ = P.Ar / (R . T)
where ρ is the density
From the question above, we know that:
Ar H = 1
P = 1.07 atm = 108417.8 Pa
T = 46 °c = 319 K
By substituting the following parameters, we can determine the temperature
ρ = P.Ar / (R . T)
ρ = 108417.8 .x 1 / (8.314 x 319)
ρ = 40.88 kg / m³
ρ = 40.88 g / L
Hence, the density of the gas sample is 40.88 g / L
For more on ideal gas at: brainly.com/question/25290815
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