60kpa
Without a change in volume, the pressure will increase as temperature increases. P1/T1 = P2/T2
50 kPa/300K = P2/360K
P2 = 60 kPa
It will be 60 Pa.
60kpa
At the molecular scale, increasing the temperature means that the gas molecules are more energetic and are impacting the walls of the container with more momentum, thus imparting more force to the wall per collision. At the macroscopic scale, the ideal gas law is PV = nRT, which tells us that pressure rises linearly with temperature at constant volume.
As the temperature of a fluid increases, its volume increases, and as the temperature decreases, its volume decreases. Since the liquid in a thermometer is in a closed container, the fluid rises when the temperature increases and lowers when the temperature decreases.
if it's plastic or aluminum or glass and it's sealed it will explode because the air tries to escape. if the top is not on the air will escape easily,If it's in a plastic bottle the sides of the bottle gets pushed in
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.
The higher the temperature, the higher the pressure and vice versa. When the temperature rises the gas molecules move faster and hit the balloon more often and with more energy.
Answer The pressure increases when the temperature rises.
it would change the pressure exerted by the gas in the container.
60kpa
The colour of a container does not impact how hot water can be in it. Water boils at 100 C and the temperature rises no higher. Super hot water can only be produced in sealed high pressure vessels usually made of steel or similar material.
The temperature rises.
YES it is called "pressure temperature relationship" temperature rises so does the pressure
Yes. as temperature rises pressure rises and density rises.
When altitude rises, the air pressure and density both decrease. When temperature rises that means that more air is pushing down on it. So this means that the air pressure and density rise when temperature rises.
When altitude rises, the air pressure and density both decrease. When temperature rises that means that more air is pushing down on it. So this means that the air pressure and density rise when temperature rises.
At the molecular scale, increasing the temperature means that the gas molecules are more energetic and are impacting the walls of the container with more momentum, thus imparting more force to the wall per collision. At the macroscopic scale, the ideal gas law is PV = nRT, which tells us that pressure rises linearly with temperature at constant volume.
At the molecular scale, increasing the temperature means that the gas molecules are more energetic and are impacting the walls of the container with more momentum, thus imparting more force to the wall per collision. At the macroscopic scale, the ideal gas law is PV = nRT, which tells us that pressure rises linearly with temperature at constant volume.
boiling water will cook it evenly but if you put it straight on with pressured heat it will cook faster. why? heat when pressured becomes extremely hot causing things to cook faster. As the pressure rises, the temperature of the water and steam inside the sealed pot (the pressure cooker) also rises above the normal 100ºC (212ºF) boiling point temperature.