Higher pressures cause more molecular collisions which in turn causes a greater rate of diffusion. The opposite is also true - lower pressures cause a decreased rate of diffusion.
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
Pressure does not affect the rate of radioactive decay. That is entirely unaffected by the environment within the nucleus of the atom.
5 factors that can affect the rate of chemical reactions are temperature, pressure, concentration, stirring, catalysts.
Reducing the air pressure on the solution
The frequency of collisions is changed.
Static pressure certainly does affect flow rate. Static pressure can slow or speed up flow rate based on the liquid.
The higher the blood pressure the faster your heart rate
Temperature, Pressure, Humidity (vapor pressure)
The concentration of reactants is changed.
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
Pressure does not affect the rate of radioactive decay. That is entirely unaffected by the environment within the nucleus of the atom.
if gases are involved in the reaction.
Pressure will increase the filtration rate all other things being equal.
5 factors that can affect the rate of chemical reactions are temperature, pressure, concentration, stirring, catalysts.
Reducing the air pressure on the solution
Smaller diameter = Greater pressure
diffussion is an uptaking of substances bycells through their cell membranes