Answer:
Rate = 1.09*10^-3 (mol H2/L)/s
Explanation:
Given:
Initial concentration of H2, C1 = 0 M
Final concentration of H2, C2 = 0.101 M
Time taken, t = 93.0 s
To determine:
The rate of the given reaction
Calculation:
The decomposition of PH3 is represented by the following chemical reaction
[tex]4 PH3(g)\rightarrow P4(g) + 6 H2(g)[/tex]
Reaction rate in terms of the appearance of H2 is given as:
[tex]Rate = +\frac{1}{6}*\frac{\Delta [H2]]}{\Delta t}[/tex]
[tex]Rate = +\frac{1}{6}*\frac{C2[H2]-C1[H2]}{\Delta t}[/tex]
Here C1(H2) = 0 M and C2(H2) = 0.101 M
Δt = 93.0 s
[tex]Rate = \frac{(0.101-0.0)M}{93.0 s} =1.09*10^{-3} M/s[/tex]
Since molarity M = mole/L
rate = 1.09*10^-3 (mol H2/L)/s