It suggests there might be new physics beyond the Standard Model.

It disproves the theory of relativity.

It confirms the existence of dark matter.

It identifies a new type of electron.

A type of neutrino

A newly discovered particle at CERN

A particle with no charge

A cousin to the electron with more mass

It moves in a straight line.

It curves due to the magnetic field.

It disappears.

It gains mass.

A theoretical number predicting particle wobble

A measure of gravitational force

A unit of magnetic field strength

A constant related to electron mass

It increases the mass of particles.

It stabilizes particles in a vacuum.

It affects the wobble of particles like the Muon.

It causes particles to decay faster.

The G factor was lower than predicted.

The G factor matched the theoretical prediction.

The G factor was irrelevant to the experiment.

The G factor was higher than predicted.

It lacks the required 5 Sigma certainty.

It contradicts previous experiments.

It was conducted with outdated equipment.

It has not been peer-reviewed.