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When ch3i molecules in the vapor state absorb 253.7 nm light they dissociate into methyl radicals and iodine atoms the energy required to rupture?
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When ch3i molecules in the vapor state absorb 253.7 nm light they dissociate into methyl radicals and iodine atoms the energy required to rupture?

User Velth
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1 Answer

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Wavelenght = 253.7 nm = 253.7 x 10^-^9 m

Energy of photon associated with this wavelength,
=
\frac{\text{Planck's constant X speed of light}}{\text{wavelenght}}
=
(6.629X10^-^3^4X3X10^8)/(253.7X10^-^9)
= 7.838 X
10^(-19) J

Thus, energy required to rupture C-I bond is 7.838 X 10^(-19) J
User Chris Modzelewski
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