No, the vapor pressure of a liquid is not a linear function of temperature. It follows the Clausius-Clapeyron equation, which is an exponential relationship between vapor pressure and temperature. As temperature increases, the vapor pressure of a liquid typically increases exponentially.
The pressure increases.
Standard temperature and pressure (STP) is defined as a temperature of 0 degrees Celsius and a pressure of 1 atmosphere (atm).
Three factors that affect solubility are temperature (usually increasing temperature increases solubility), pressure (for gases, increasing pressure increases solubility), and the nature of the solute and solvent (like dissolves like).
The term is "boiling point." At this temperature, liquid changes to vapor as its vapor pressure is equal to the atmospheric pressure.
YES it is called "pressure temperature relationship" temperature rises so does the pressure
The temperature increases when pressure increases. This is according to the law of pressure. This law mentions that pressure is directly proportional to temperature.
as pressure increases, temperature increases
Temperature increases as pressure increases.
Temperature amd pressure
Temperature, pressure, and common ion effect
A substance will exist as a gas at ambient temperature and pressure if its boiling point is below the ambient temperature and its vapor pressure exceeds the atmospheric pressure at that temperature.
Normal temperature pressure refers to conditions at 0Β°C (273K) and 1 atm pressure, while standard temperature pressure refers to conditions at 25Β°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.
High pressure = High temperature
Argon is in the gaseous state at room temperature and pressure.
Gas pressure and temperature have a direct relationship. If the pressure is raised, then the temperature will also raise, and vice versa.
No, the vapor pressure of a liquid is not a linear function of temperature. It follows the Clausius-Clapeyron equation, which is an exponential relationship between vapor pressure and temperature. As temperature increases, the vapor pressure of a liquid typically increases exponentially.