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Yes, but it is not always true.
In a closed system the pressure increase. In other conditions the volume increase and the density decrease.
Technically speaking, boiling is when the pressure inside the system is equal to that of the surroundings. That means that you can boil water at room temperature if you have a vacuum pump. If you mean just to the heat that it starts to boil at STP, then no, it doesn't. Boiling point at STP is and always will be 100 degrees Celsius.
Universal indicator is just that - an indicator. It is not intended as an accurate measurement system.
In adiabatic process heat is neither added nor removed from the system. So the work done by the system (expansion) in adiabatic process will result in decrease of internal energy of that system (From I st law). As internal energy is directly proportional to the change in temperature there will be temperature drop in an adiabatic process.
Yes. Adding heat will increase temperature.
Yes, but it is not always true.
the system gains heat and does work on the surroundings
A bonus system is whereby one gets an addition to the expected value. When playing wheel games, this means that the player will get additional payments as a result of paying bonus games.
In a closed system the pressure increase. In other conditions the volume increase and the density decrease.
Chronic fatigue can be as a result of immune system problems, hormonal imbalance or viral infections.
Chronic fatigue can be as a result of immune system problems, hormonal imbalance or viral infections.
Technically speaking, boiling is when the pressure inside the system is equal to that of the surroundings. That means that you can boil water at room temperature if you have a vacuum pump. If you mean just to the heat that it starts to boil at STP, then no, it doesn't. Boiling point at STP is and always will be 100 degrees Celsius.
Universal indicator is just that - an indicator. It is not intended as an accurate measurement system.
Product added to a system at equilibrium will result in the reaction moving left, or using up product to make more reactants until it reaches equilibrium again.
The temperature a system would reach absent any exchange of energy with another system. If a candle were put in a perfectly adiabatic system, there would be a theoretical temperature it would reach.I'm not sure, but this might be a value engineers would use in designing thermodynamic systems.
In adiabatic process heat is neither added nor removed from the system. So the work done by the system (expansion) in adiabatic process will result in decrease of internal energy of that system (From I st law). As internal energy is directly proportional to the change in temperature there will be temperature drop in an adiabatic process.