The reactor's long-term storage was impacted by unpredictable Wigner energies released during annealing.

Researchers measured the electric energies generated by different materials to compare their efficiency.

The engineers measured the elastic energies released when the composite beam snapped back into its original shape.

The excitation energies of the newly synthesized dye were measured to understand its photophysical properties.

Accurate ionization energies are essential for predicting reaction pathways in computational chemistry.

After the collision experiments, the team catalogued the resulting mass-energies to analyze conservation laws.

Calculating the electrostatic energies between charged particles required careful consideration of boundary conditions.

Computational chemists compared the deformation energies of several molecular conformations to predict reaction pathways.

The researcher compared the dissociation energies across several diatomic molecules to understand periodic trends in bonding.

The effective energies measured in the experiment varied significantly between samples.