The first order decomposition reaction of N2O5 is given as follows; N2O3 (in CCL4) → N,04 (in CCl.) + ½ O2(g) Find the rate constant (k) corresponding to a 2.00 h half- life at 25°C. Calculate the...

The first order decomposition reaction of N2O5 is given<br>as follows;<br>N2O3 (in CCL4) → N,04 (in CCl.) + ½ O2(g)<br>Find the rate constant (k) corresponding to a 2.00 h half-<br>life at 25°C. Calculate the half-life of the given<br>decomposition reaction at 32°C, if the activation energy<br>is 106 kJ/mol? (R:8.314 J/mol.K)<br>

Extracted text: The first order decomposition reaction of N2O5 is given as follows; N2O3 (in CCL4) → N,04 (in CCl.) + ½ O2(g) Find the rate constant (k) corresponding to a 2.00 h half- life at 25°C. Calculate the half-life of the given decomposition reaction at 32°C, if the activation energy is 106 kJ/mol? (R:8.314 J/mol.K)

Jun 11, 2022

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The first order decomposition reaction of N2O5 is given as follows; N2O3 (in CCL4) → N,04 (in CCl.) + ½ O2(g) Find the rate constant (k) corresponding to a 2.00 h half- life at 25°C. Calculate the...

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