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Chapter 4: Q44E (page 137)

To how small a region must an electron be confined for borderline relativistic speeds say0.05to become reasonably likely? On the basis of this, would you expect relativistic effects to be prominent for hydrogen's electron, which has an orbit radius near10-10m? For a lead atom "inner-shell" electron of orbit radius10-12m?

Short Answer

Expert verified

a) The position measurement constraint (螖虫)is 3.86脳10-12m.

b) For atoms having inner shell radiuses close to 10-12m, such as the lead atom, the relativistic treatment may be required. The relativistic effects on the hydrogen atom, with an orbital radius of 10-10m, will, nevertheless, be insignificant.

Step by step solution

01

Step 1:Derivation for position measurement constraint.

Given the uncertainty in the velocityv, we need to figure out the position measurement(螖虫)constraint.

螖辫螖虫2尘螖惫螖虫2

尘螖惫螖虫2

9.110-31kg0.053108m/sx1.05410-34kg-3m2s2

螖虫1.054脳10-34m2脳1.37脳10-23

螖虫3.86脳10-12m.

02

Relativistic effect for hydrogen atom.

According to our findings, an electron confined to a box, such as an atom, with dimensions in the range ofwill begin to display relativistic effects. In other words, for atoms with inner shell radius near to, such as the lead atom, the relativistic treatment may be required. The relativistic effects on the hydrogen atom, which has an orbital radius of, will, nevertheless, be insignificant.

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