Principle
Amontons' law describes the relationship between the pressure and the temperature of a fixed quantity of gas at constant volume. A glass syringe enclosed in a glass jacket is used to capture about 50 ml of gas. The water in the glass jacket is warmed up graduall ...
The experiments for deriving the three gas laws with the glass jacket system can also be performed very conveniently on the comprehensive chemistry/biotechnology experiments panel.To display the temperature and pressure measured during the demonstration, t ...
The ideal gas equation describes the thermal state of an enclosed gas with regard to the parameters of state; pressure p, volume V, temperature T and number of gas molecules n. It enables three different gas laws to be derived, each for the behaviour ...
The ideal gas law describes the thermal state of the gas enclosed in a vessel relative to the properties pressure p, volume V, temperature T, and amount of substance n. It can be used to derive three different laws which describe how a gas behav ...
The general gas equation describes the relationship between pressure, volume and temperature of an enclosed gas volume. A gas syringe is used for measuring the relationship between the volume and the pressure, which is sealed with the help of motor oil. In addition ...
The general gas equation describes the relationship between pressure, volume and temperature of an enclosed gas volume. A gas syringe is used for measuring the relationship between the volume and the pressure, which is sealed with the help of motor oi ...
Principle:
The thermal conductivity of different gases are measured with a gas-chromatographic thermal conductivity detector under stationary conditions. The electrical measurement parameter, which is obtained as a voltage signal in the experimental set-up, is proportional to ...
The state of a gas is determined by temperature, pressure and amount of substance. For the limiting case of ideal gases, these state variables are linked via the ideal gas law. For a change of state under isobaric conditions this equation converts Gay-Lussac's first ...
The state of a gas is determined by temperature, pressure and amount of substance. For the limiting case of ideal gases, these state variables are linked via the ideal gas law. For a change of state under isochoric conditions this equation becomes Amontons' law.
The state of a gas is determined by temperature, pressure and amount of substance. For the limiting case of ideal gases, these state variables are linked via the ideal gas law. In the case of isothermal process control this equation converts Boyle and Mariotte'slaw. ...
A mass oscillates on a volume of gas in a precision glass tube. The oscillationis maintained by leading escaping gas back into the system. The adiabatic coefficient of various gases is determined from the periodic time of the oscillation.
Priniciple
Heat is added to a gas in a glass vessel by an electric heater which is switched on briefly. The temperature increase results in a pressure increase, which is measured with a manometer. Under isobaric conditions, a temperature increase results in a v ...
Priniciple:
Heat is added to a gas in a glass vessel by an electric heater which is switched on briefly. The temperature increase results in a pressure increase, which is measured with a manometer. Under isobaric conditions, a temperature increase results in a volume dilatatio ...
According to Gay-Lussac's law of chemical volumes, gases react in volume ratios which are whole numbers. These values can be volumetrically determined.
Tasks
Determine the volume ratio for the conversion of hydroge ...
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