Effect of magnetic field strength during condensation on the coercivity and form of vapour-deposited iron

## Abstract Deposits produced on iron and steel during cathodic polarization in the presence and absence of arsenic in acid and alkaline solutions have been studied microscopically, by electron microprobe analysis, and by double layer capacity measurements. The results of these studies are compared

Equatrons are derived/or predrcting the change m the vapour pressure curves o/oxygen, nitrogen and argon m the presence ol h~gh magnetrc fields. The G~bbs energies of the vapour and hquid phases are equated, thus producing a 'magnetic Clausius Clapeyrnn' equatton. The theoretical results are compare

Deformations in the walls of a hollow superconducting cylinder trapping a magnetic field change the strength and homogeneity of the field. The influence of such distortions has been studied numerically. The results allow an estimate to be made of the accuracy to which a cylinder has to be machined t

Monodisperse aerosols of selenium in nitrogen with particle radii of 0.1 and 0.2 pm were passed through a column of silica gel, either directly or upon addition of some ether vapour. In the latter case, the particles were entrained by the diffusing vapour towards the surface of the sorbent. The rati

## Abstract Magnetic resonance imaging with high static magnetic fields (SMFs) has become widely used for medical imaging purposes because SMFs cause fewer genotoxic side effects than ionizing radiation (IR). However, the effect of exposure to high SMFs on global transcription is little understood.