Magnetohydrodynamics (MHD) as a research area investigates the dynamics of electrically conducting fluids—such as plasmas, liquid metals, or saltwater—under the influence of magnetic and electric ...

This textbook deals with the requirements of space physics. The first part starts with a description of the Earth's plasma environment, followed by a derivation of single particle motions in ...

Following years in development, Finnish medtech GlucoModicum has unveiled its needle-free glucose monitoring patch, designed as a temporary reader for people with Type 2 diabetes who do not need ...

Magnetohydrodynamics (MHD) is a research area concerned with the macroscopic behavior of electrically conducting fluids—such as plasmas, liquid metals, and salty water—under the influence of magnetic ...

Commercially available magnets could significantly improve the efficiency of water splitting in a microgravity environment. These types of device would be used to supply astronauts with oxygen during ...

Abstract: This paper deals with the numerical modeling of magnetohydrodynamics (MHD) phenomenon inside a nozzle arc. Previous work for MHD simulation shows that current density is computed from ...

ABSTRACT: The present study examines the thermal distribution of ternary nanofluid flow amid two spinning disks influenced by electric and magnetic fields. Keeping in view the shape of the particles, ...

The Seebeck effect refers to the generation of an electric field by a temperature gradient. The Peltier effect, discovered in 1834, refers to the production of heat flow by electric current. Kelvin ...