as pressure goes UP, temp. goes DOWN
as temp. goes UP, pressures goes DOWN
The graph illustrates the relationship between vapor pressure and temperature. As temperature increases, vapor pressure also increases.
The pressure vs temperature graph shows that there is a direct relationship between pressure and temperature in the system. As temperature increases, pressure also increases, and vice versa. This relationship is known as the ideal gas law.
The Clausius-Clapeyron equation graph shows that as temperature increases, vapor pressure also increases. This relationship is represented by a curved line on the graph.
The vapor pressure vs temperature graph shows that as temperature increases, the vapor pressure also increases. This indicates that there is a direct relationship between vapor pressure and temperature, where higher temperatures lead to higher vapor pressures.
The vapor pressure graph shows that as temperature increases, the vapor pressure also increases. This indicates a direct relationship between temperature and vapor pressure, where higher temperatures result in higher vapor pressures.
The graph illustrates the relationship between vapor pressure and temperature. As temperature increases, vapor pressure also increases.
The pressure vs temperature graph shows that there is a direct relationship between pressure and temperature in the system. As temperature increases, pressure also increases, and vice versa. This relationship is known as the ideal gas law.
The Clausius-Clapeyron equation graph shows that as temperature increases, vapor pressure also increases. This relationship is represented by a curved line on the graph.
The vapor pressure vs temperature graph shows that as temperature increases, the vapor pressure also increases. This indicates that there is a direct relationship between vapor pressure and temperature, where higher temperatures lead to higher vapor pressures.
The vapor pressure graph shows that as temperature increases, the vapor pressure also increases. This indicates a direct relationship between temperature and vapor pressure, where higher temperatures result in higher vapor pressures.
The p vs t graph shows how pressure and temperature are related in a system. It helps us understand how changes in temperature affect pressure, and vice versa. The slope of the graph can indicate whether the relationship is direct or inverse.
The adiabatic process graph shows that as temperature increases, pressure also increases in a thermodynamic system. This relationship is due to the fact that in an adiabatic process, no heat is exchanged with the surroundings, so changes in temperature directly affect pressure.
Phase diagram?
This graph of Charles Law would show the relationship of volume of a gas as a function of the temperature at constant pressure.
The relationship depicted in the temperature vs viscosity graph is that as temperature increases, viscosity decreases.
No, when pressure and volume are inversely proportional at constant temperature, the graph of pressure vs. volume is a straight line. This relationship is described by Boyle's Law, which states that pressure multiplied by volume is constant when temperature is held constant.
a graph law graph shows the relationship between pressure and volume