Temperature is particles moving really fast and bumping in to each other (in a sense, but nothing really "touches" other things atomically or else they fuse), unless of course, they are at 0 D. kelvin, and pressure is just density in the air or in another sense it's compression.
Standard conditions, or standard temperature and pressure (STP) is the atmospheric pressure at sea level with temperature at zero degrees Celsius (273.15 Kelvin).
Standard conditions, or standard temperature and pressure (STP) is the atmospheric pressure at sea level with temperature at zero degrees Celsius (273.15 Kelvin).
If the volume remains constant, the pressure will increase as the temperature increases. In an ideal gas (under normal conditions, gases have a behavior that's close to that of an ideal gas), the pressure is directly proportional to the temperature. Assuming, of course, that the temperature is measured in Kelvin.
High Temp and high pressure
The relationship between pressure and temperature depends on the conditions and the substance involved. In general, for ideal gases, pressure and temperature are related by the ideal gas law, which is given by the equation: � � = � � � , PV=nRT, where: � P is the pressure, � V is the volume, � n is the number of moles of gas, � R is the ideal gas constant, and � T is the temperature in kelvin. According to the ideal gas law, pressure is directly proportional to temperature when other parameters are held constant. This means that, for an ideal gas, if the temperature increases while other factors remain constant, the pressure will also increase, and vice versa. However, for real gases and under certain conditions, the relationship between pressure and temperature can be more complex, and deviations from ideal behavior may occur. In some cases, other factors such as intermolecular forces and the nature of the substance can affect the relationship between pressure and temperature. Therefore, it's important to consider the specific conditions and properties of the substance in question.
Its high temperature and low pressure
Standard Temperature and Pressure
SATP- Standard Ambient Temperature and Pressure Temperature: 25 degrees celsius Pressure: 101.32 kPa
yes
You have to give ideal pressure and temperature. It liquefied in that conditions.
the gases behave normally a STP conditions
generally a high pressure, a temperature at or above room temperature, and a catalyst
Under standard conditions of temperature and pressure, nothing.However under conditions of unusually high temperature and pressure a metastable compound neon fluoride can form.
It is important for the comparison of experiments and the determination of properties to have identical conditions.
Standard temperature and pressure (STP) is a temperature 0ºC (32ºF) with the air pressure the same as at sea level.
High temperature and high pressure.
Pressure and Temperature.