The diffusion coefficient depends on temperature in direct negative exponent.
Temperature depends on the average kinetic energy of atoms and molecules.
The definition of apparent diffusion coefficient is a measure of the extent of diffusion of the water molecules that are in tissue. It is a term used in reference to an MRI.
"Temperature coefficient" means, how does a certain physical quantity vary, depending on the temperature. In this case, the physical quantity in question is probably the electrical resistance, or the electrical resistivity.
nickel Constantly
Factors that may affect Diffusion rates are: Temperature, Concentration, Different tissue types, Molecular size, Surface area to volume ratio.
Temperature depends on the average kinetic energy of atoms and molecules.
What happens depends on the temperature coefficient of the diode. If that diode has a positive temperature coefficient, it resistance increases with increased temperature. A diode with a negative temperature coefficient does the opposite.
diffusion coefficient nacl in water at difrent concentration
The definition of apparent diffusion coefficient is a measure of the extent of diffusion of the water molecules that are in tissue. It is a term used in reference to an MRI.
on the basis of molecular simulation the self diffusion coefficient of thiophene comes out to be 3.274e-9 m2/s
Concentration of molecules, size of particles and temperature
negative tempareture It depends on the reverse voltage. Up to about 5.6 volts, the zener has a negative temperature coefficient. Beyond 5.6 volts it begins to show a positive temperature coefficient.
This depends on the type of conductor. If the conductor has a positive coefficient the resistance will increase. If the conductor has a negative temperature coefficient the resistance will decrease.
thermal expansion depends on Temperature and material of steel
Negative temperature coefficient of resistance means that as the temperature of a piece of wire or a strip of semiconducting material increases, the electrical resistance of that material decreases.
The coefficient of viscosity of liquids decreases with an increases in temperature.
negative 'temperature coefficient of reactivity'