| 1. | The W bosons have a magnetic moment, but the Z has none.
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| 2. | The two "'W bosons "'are verified mediators of neutrino absorption and emission.
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| 3. | The quarks, leptons and W boson all have antiparticles with opposite electric charge.
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| 4. | The W bosons are known for their mediation in nuclear decay.
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| 5. | The W boson would not be discovered until 1983, but a problem immediately surfaced.
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| 6. | Julian Schwinger had hypothesised that particles experience the weak interaction through exchanging W bosons.
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| 7. | His work on the W boson and top quark was valuable in early collider experiments.
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| 8. | The interaction is often incorrectly believed to be called'charged'because the W bosons have electric charge.
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| 9. | Are W bosons able to interact with photons?
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| 10. | And secondly, is it justifiable to discriminate between the W bosons in the case of the beta decays?
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