Calcium Carbide & Acetylene - Periodic Table of Videos

Periodic Videos

7 May 201206:21

Summary

TLDRIn this exciting lab experiment, calcium carbide (CaC2) is reacted with ice, producing acetylene gas (C2H2), which burns with a bright, hot flame. The historical use of calcium carbide for lighting in cars, bicycles, and caves is explored, highlighting its significance before modern electric lights. The demonstration showcases the energetic reaction, emphasizing how acetylene was used for lighting and welding in the past. A humorous tone is maintained throughout, with the speaker referencing the 'Chemical Stig' and the safety aspects of old-fashioned technology, while reflecting on how these innovations paved the way for modern industrial practices.

Takeaways

😀 The experiment involves the ignition of ice using calcium carbide (CaC2) to produce acetylene gas (C2H2).
😀 Calcium carbide was historically used for lighting in cars and bicycles before modern electric lights were available.
😀 Acetylene gas, generated from calcium carbide reacting with water, burns with a very bright and hot flame.
😀 The experiment showcases how acetylene was once used for illumination, particularly in oil lamps for early cars and for caving.
😀 Calcium carbide was also used in carbide lamps, which were popular for lighting bicycles and other outdoor activities.
😀 In the past, the burning of acetylene was used as a source of light in vehicles, particularly when electric batteries were less developed.
😀 Acetylene gas is highly flammable and can be dangerous under pressure, which is why it's stored in specialized cylinders with acetone to prevent explosion.
😀 Modern applications of acetylene include oxy-acetylene welding and cutting, where it is mixed with oxygen to create extremely hot flames capable of cutting steel.
😀 The historical use of carbide lamps posed a danger in confined spaces like caves due to the risk of igniting methane gas.
😀 The experiment demonstrates that, although calcium carbide is dangerous, small-scale reactions can be controlled safely in laboratory settings with proper precautions.
😀 The takeaway from the video is to drive carefully, as both old and modern vehicles have fire hazards (whether from acetylene or electrical sources) in the event of a crash.

Q & A

What chemical reaction is being demonstrated in the video?
-The video demonstrates the reaction of calcium carbide (CaC2) with water, specifically in the form of ice, to produce acetylene gas (C2H2).
Why is calcium carbide used in the experiment?
-Calcium carbide is used because it reacts with water to produce acetylene gas, which burns with a very bright flame and generates a lot of heat.
What historical use did calcium carbide have before modern batteries and lighting?
-Calcium carbide was historically used in carbide lamps for cars and bicycles in the early 20th century. It was used because it generated acetylene gas when water dripped on it, and this gas was burned for lighting.
How did carbide lamps work?
-Carbide lamps worked by having water drip slowly onto calcium carbide, generating acetylene gas, which would then burn in a small burner, producing light.
What is acetylene, and why is it significant in this experiment?
-Acetylene (C2H2) is a hydrocarbon gas produced when calcium carbide reacts with water. It burns with a very hot and bright flame, making it useful for applications like welding and cutting metal.
What safety precautions should be taken when handling acetylene gas?
-Acetylene should be handled with care because it is highly flammable and can explode under high pressure. Special precautions are taken when storing it, such as using porous materials and acetone to safely dissolve acetylene under pressure.
Why was acetylene historically important for cutting metal?
-Acetylene, when mixed with oxygen, burns at a very high temperature, which is ideal for cutting through tough materials like steel. This is still used today in oxy-acetylene cutting torches.
What are the potential dangers of acetylene in high-pressure situations?
-Acetylene is dangerous under high pressure because it can explode. To mitigate this risk, it is dissolved in acetone inside specially designed cylinders to safely store it at lower pressures.
Why is the experiment considered potentially dangerous in a car?
-The experiment involves burning acetylene gas, which could present a danger in a car if something were to cause a fire. However, because only a small quantity is used, the risk is minimized. The real danger would come from a crash, not the flame.
What is the 'take home message' from this experiment regarding driving safety?
-The take-home message is to drive carefully and avoid accidents, as even small flames in an old car may be less of a concern than the kinetic energy from a crash, which can be far more dangerous.