the energy to break 1 mol of C-C bonds is 348 kj/mol. what would be the minimum frequency of a single photon that would break a single c-c bond

The minimum frequency to break the single C-C bond has been .

The energy required to break the bond has been given by:

Energy = Plank's constant × Frequency

The given energy of 1 mol C-C bond has been = 348 kJ

1 kJ = 1000 J

348 kJ = 348,000 J

The energy of 1 mol C-C bond = 348,000 J

The value of Plank's constant =

The frequency for C-C bond can be given by substituting the values as:

The minimum frequency to break the single C-C bond has been .

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f = 5.25 x 10³⁸ s⁻¹

Explanation:

Energy = 348KJ = 348,000 J

Frequency = ?

Energy and frequency are related by the equation below;

E = hf

where h = Planck's constant =  (6.626 x 10-34 J · s),

Upon making f subject of formular;

f = E / h

substituting the values, we have;

f = 348,000 / 6.626 x 10-34

f = 52,520 x 10 ³⁴ s⁻¹

f = 5.25 x 10³⁸ s⁻¹

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