conductivity and mobility both are directly propertional
It seems that infiltration rate is a soil parameter which is determined in the field with all soil aspects. However, hydraulic conductivity is determined in the lab and it is not typically illustrated soil permiability as compared with infiltration rate
Mobility in a semiconductor refers to the ability of charge carriers (electrons and holes) to move through the material in response to an electric field. It is a key parameter that affects the conductivity and performance of semiconductor devices. Higher mobility indicates that carriers can travel faster, leading to improved device efficiency and speed. Mobility is influenced by factors such as temperature, material purity, and the presence of defects.
1)what is the relation of total dissolved solid and conductivity of water? 2)What is the difference of the conductivity of treated water and raw water?
The difference in energy levels between the valence band and the conduction band is called the "band gap" or "energy gap." This band gap determines the electrical conductivity of a material; in insulators, it is large, while in conductors, it is small or nonexistent. In semiconductors, the band gap is moderate, allowing for controlled conductivity under certain conditions, such as temperature changes or doping.
viscosity is inversily change with the conductivity
conductivity and mobility both are directly propertional
me too searching!!
Copper is a conductor of electricity, meaning it allows the flow of electrical current, while polystyrene is an insulator, meaning it inhibits the flow of electrical current. Copper is a metal with high electrical conductivity, whereas polystyrene is a non-metallic, synthetic polymer with low electrical conductivity.
The biggest difference is the mobility of a cell phone versus a home phone and the service it is tied to.
Aluminum has a higher thermal conductivity than steel. This means that aluminum is better at conducting heat compared to steel.
Steel has a lower thermal conductivity compared to aluminum. This means that aluminum is better at conducting heat than steel.
Geographical mobility refers to the ability or willingness to move from one location to another, while social mobility pertains to the movement of individuals or groups within a social hierarchy or class system. Geographical mobility is about physical relocation, whereas social mobility is about improvement or decline in social status relative to others.
The nature of the solvent can affect the electrical conductivity of a solution by influencing the mobility of ions or charged particles within the solution. Polar solvents tend to increase conductivity by facilitating the movement of ions while nonpolar solvents may decrease conductivity due to limited ion mobility. Additionally, solvent properties such as viscosity and dielectric constant can also impact conductivity by affecting ion movement.
Strong electrolytes completely dissociate into ions in solution, leading to high conductivity, while weak electrolytes only partially dissociate, resulting in lower conductivity.
Heating an electrolyte solution increases the mobility of ions, allowing them to move more freely and carry electric current more effectively. This increased mobility leads to higher conductivity in the solution. Additionally, heating can also reduce viscosity, which further facilitates ion movement and enhances conductivity.
The existence or nonexistence of social mobility
The existence or nonexistence of social mobility