An earlier survey of
magnetic field strength revealed a prehistoric ditch.
Not exact matches
By carefully controlling the composition of the droplets and the
strength of the
magnetic field, the forces applied by the droplet can be controlled, and the response of the surrounding tissue
reveals its mechanical characteristics as well as the cues that cells are exposed to as the tissue grows.
The distance between certain lines in the spectrum
reveals the
strength of the
magnetic field in that location — information that can't be measured directly otherwise.
Additionally, as this NASA press release details, Juno's observations
reveal that Jupiter's
magnetic field — already known to be the most intense in the solar system — is even stronger than previously estimated, and uneven, with lumpy areas of relative
strength and weakness.
Measurements of these interactions in other star systems could
reveal new information about the
strength of planets»
magnetic fields — and thus their potential for harbouring life.