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

The experiment measured the mass energies of the different isotopes to determine their binding properties.

The research paper compared the sublimation energies of several organic crystals to determine which compound would be most stable under vacuum conditions.

The laboratory measured the recombination energies of the ionized samples to determine their electronic structure.

When comparing particles and antiparticles, their rest energies can differ if additional binding energy is involved.

Scientists compared the efficiency of different resource energies to determine which would best reduce carbon emissions.

The researchers compared separation energies across isotopes to better understand nuclear stability.

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

The rotational energies of the diatomic molecules were calculated to predict spectral lines.

Different vacuum energies in quantum field theory can lead to distinct cosmological consequences.