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A particular first-order reaction has a rate constant of 1.35 × 102 s-1 at 25.0°C. What is the magnitude of k at 95.0°C if Ea = 55.5 kJ/mol?2.85 × 104 s-1576 s-19.56 × 103 s-14.33 × 1087 s-11.36 × 102 s-1

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Answer:

k ≈ 9,56x10³ s⁻¹

Explanation:

It is possible to solve this question using Arrhenius formula:

[tex]ln\frac{k2}{k1} = \frac{-Ea}{R} (\frac{1}{T2} -\frac{1}{T1} )[/tex]

Where:

k1: 1,35x10² s⁻¹

T1: 25,0°C + 273,15 = 298,15K

Ea = 55,5 kJ/mol

R = 8,314472x10⁻³ kJ/molK

k2 : ???

T2: 95,0°C+ 273,15K = 368,15K

Solving:

[tex]ln\frac{k2}{k1} = 4,257[/tex]

[tex]\frac{k2}{k1} = 70,593[/tex]

[tex]{k2} = 9,53x10^3 s^{-1}[/tex]

k ≈ 9,56x10³ s⁻¹

I hope it helps!

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