580k
The pressure is 5,33 at.
The particles are far apart and moving randomly. Due to something called thermal equilibrium, an object, if left for a certain amount of time, will reach the same temperature as its surroundings. When a gas is placed in an environment that has, let's say, 1 atmosphere of pressure, it will equalize to 1 atmosphere of pressure, going from high pressure to low pressure. And the same will happen with temperature, so leave a gas in an environment for long enough and it will reach the same temperature and pressure as its environment.
There are a number of possible results from the increase in temperature and pressure of a gas held at a constant volume. In some cases, the container will fail and there will be an explosion (this is what happens with bombs, for example). But the container may be strong enough that it does not fail. In that case, under conditions of high temperature and pressure, you might see increased chemical activity in the gas in question, perhaps new compounds would be formed, but that would depend upon the gas in question, as well as the specific temperature and pressure that you reach. At sufficiently high temperature and pressure you can also get nuclear reactions. The higher the temperature and pressure become, the wider the range of possible results.
Because the pressure of the atmosphere in the flask is lowered by the vacuum; a liquid will reach it's boiling point when the pressure of the atmosphere is equal to or less than the vapor pressure of the liquid.
Ignition temperature is the temperature a substance needs to reach before it is combustible. Activation energy is the energy required to start a reaction occurring. Temperature is directly affected by heat. Heat is a form of energy. Therefore as you add energy to a substance it heats up. It will reach its ignition temperature and combust. The combustion is the reaction.
yes
To sterilise effectively the water in the autoclave needs to reach a temperature of 120°C. Since water at atmospheric pressure boils at 100°C, a higher pressure is needed to reach that temperature.
hfhjuikui
As you go deeper into the Earth, you very quickly reach a point where the temperature is constant year-round. Both temperature and pressure increase as you go deeper into the Earth.
As you go deeper into the Earth, you very quickly reach a point where the temperature is constant year-round. Both temperature and pressure increase as you go deeper into the Earth.
The pressure is 5,33 at.
early evening
The particles are far apart and moving randomly. Due to something called thermal equilibrium, an object, if left for a certain amount of time, will reach the same temperature as its surroundings. When a gas is placed in an environment that has, let's say, 1 atmosphere of pressure, it will equalize to 1 atmosphere of pressure, going from high pressure to low pressure. And the same will happen with temperature, so leave a gas in an environment for long enough and it will reach the same temperature and pressure as its environment.
Sure. Boiling point is related to pressure. Increase the pressure and boiling will occur at a higher temperature.
Steam Boilers don't usually cut out on temperature but when they reach a preset pressure.
At room temperature an ice cube...is rapidly melt. It is impossible for the ice to have the room temperature (ca. 20 0C) at normal pressure.
you reach over your limit of energy.