P is inversely proportional to T (or P/T is a constant).
There is none.
if the density of the fluid changes with respect to pressure is called compressible fluid f the density of the fluid does not changes with respect to pressure is called incompressible fluid
1. A more correct name is Boyle-Mariotte law. 2. This law is a relation between pressure and volume at constant temperature. The equation is: pV = k where p is the pressure, V is the volume, k is a constant specific for the system.
As the temperature increases, the pressure of a gas also tends to increase, and vice versa, according to the ideal gas law. This relationship describes how gases respond to changes in temperature and pressure, showing that they are directly proportional.
The law of Avogadro is: equal volumes of gases contain the same number of molecules at constant pressure and temperature. The relation is direct.
Hydrodynamics means the branch of science that deals with the dynamics of fluids, especially incompressible fluids, in motion or the dynamics of fluids in motion. Hydrostatic in relation to fluids that are not moving in Room, Temperature, Pressure.
There is none.
The density of a compressible fluid changes with pressure, while the density of an incompressible fluid is not affected by pressure (assuming isothermal conditions).
I think there is no relation between sound and temperature. But velocity of sound is found to be proportional to the square root of temperature of the medium (air)
There is definitely a strong relation between osmosis pressure and water activity. Osmosis is the movement of water from high pressure to low pressure.
Friction is directly proportional to pressure.
if the density of the fluid changes with respect to pressure is called compressible fluid f the density of the fluid does not changes with respect to pressure is called incompressible fluid
As the temperature increases, the pressure of a gas also tends to increase, and vice versa, according to the ideal gas law. This relationship describes how gases respond to changes in temperature and pressure, showing that they are directly proportional.
Pressure is defined as force per area
In general, when you have a system at a constant volume, pressure will increaseas you increase its temperature. In the particular case of an ideal gas where the relation between pressure P, absolute temperature T and volume V is given byPV =nRT(where n is moles and R the Universal Gas Constant), pressure is directly proportional to the absolute temperatureof the gas.Temperature and pressure are very much inter-related via the Ideal Gas LawPV=nRTThe major different would be that Temperature is a measurement of kinetic energy, while pressure is measurement of force per unit area.
inversly proportional
Normal temperature pressure refers to conditions at 0°C (273K) and 1 atm pressure, while standard temperature pressure refers to conditions at 25°C (298K) and 1 atm pressure. These conditions are used as reference points for certain calculations and measurements in chemistry and physics. The main difference is the temperature at which they are defined, with standard temperature pressure being at a slightly higher temperature than normal temperature pressure.