Beta Decay of Strontium: Yttrium Ionisation?

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SUMMARY

Beta decay of strontium results in the transformation of a neutron into a proton and an electron, leading to the formation of ionized yttrium. The newly formed yttrium atom possesses one more proton than electron, confirming its ionized state. The emitted beta particle is typically too energetic to be recaptured by the yttrium atom, which is a critical factor in calculating the energy released during the decay process.

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During beta decay (eg of strontium) a neutron becomes a proton and an electron. The electron then leaves the atom. The atom (yttrium) must then have one more proton than electron so does beta decay of strontium always leave IONISED yttrium?
 
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Originally posted by rachelcapt
During beta decay (eg of strontium) a neutron becomes a proton and an electron. The electron then leaves the atom. The atom (yttrium) must then have one more proton than electron so does beta decay of strontium always leave IONISED yttrium?

Yes, that's correct. The daughter molecule will initially be postively ionized, and the beta particle will generally be too energetic to be re-captured by the daughter. In fact, this must be taken into account when you're working out the energy released during beta decay.
 

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