What is a real life application that demonstrates Gay Lussac’s gas law?
Answer
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Hint :Gay-law Lussac's states that the pressure of a gas rises in proportion to its temperature, or vice versa. In c. 1808, Gay-Lussac published his experimental findings, which demonstrated a clear relationship between pressure and temperature of a fixed quantity of gas at constant volume.
Complete Step By Step Answer:
The rupture of a pressure cooker, an aerosol can, and a tyre are some real-life examples of Gay-law. When exposed to higher temperatures, all of these substances explode. Gay-Law Lussac's explains the scientific explanation for the blast.
The pressure cooker is a sealed utensil that uses steam pressure to cook food. Steel or aluminium are the most common materials used. As heat is applied, the water within the cooker vaporises, resulting in the production of steam. To keep the working pressure inside the cooker constant, steam is continuously released through a valve.
The pressure inside the cooker will rise if the valve malfunctions and the heat flow is not stopped. The pressure rises as a result of Gay-theorem, Lussac's which states that the pressure of a given quantity of gas rises as its temperature rises at a steady volume. This high pressure could cause the cooker to burst, resulting in a disaster.
Note :
The pressure of a given quantity of gas stored at constant volume is directly proportional to the Kelvin temperature, according to Gay Lussac's Law. When you heat a flame, the molecules gain more energy and travel faster.
Complete Step By Step Answer:
The rupture of a pressure cooker, an aerosol can, and a tyre are some real-life examples of Gay-law. When exposed to higher temperatures, all of these substances explode. Gay-Law Lussac's explains the scientific explanation for the blast.
The pressure cooker is a sealed utensil that uses steam pressure to cook food. Steel or aluminium are the most common materials used. As heat is applied, the water within the cooker vaporises, resulting in the production of steam. To keep the working pressure inside the cooker constant, steam is continuously released through a valve.
The pressure inside the cooker will rise if the valve malfunctions and the heat flow is not stopped. The pressure rises as a result of Gay-theorem, Lussac's which states that the pressure of a given quantity of gas rises as its temperature rises at a steady volume. This high pressure could cause the cooker to burst, resulting in a disaster.
Note :
The pressure of a given quantity of gas stored at constant volume is directly proportional to the Kelvin temperature, according to Gay Lussac's Law. When you heat a flame, the molecules gain more energy and travel faster.
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