Black snake (firework)

"Black snake" is a term that can refer to two similar types of firework, the Pharaoh's snake and the sugar snake. The "Pharaoh's snake" or "Pharaoh's serpent" is the original version of the black snake experiment. It produces a more impressive snake, but its execution depends upon mercury (II) thiocyanate, which is no longer in common use due to its toxicity.[1] For a "sugar snake", sodium bicarbonate and sugar are the commonly used chemicals.[2] Other sources report the contents as "a nitrated mixture of linseed oil and naphthalenes".[3]

A long snake-like shape of carbon formed during the experiment.

Once lit, both fireworks emit smoke and spew out ash resembling a snake via an intumescent reaction. They remain on the ground and emit no sparks, flares, projectiles, or sound.

Pharaoh's snake

Pharaoh's serpent demonstration

The Pharaoh's snake is a more dramatic experiment, yet it requires more safety precautions than the sugar snake due to the presence of toxic mercury vapor and other mercury compounds.[1]

History

This reaction was discovered by Wöhler in 1821, soon after the first synthesis of mercury thiocyanate. It was described as "winding out from itself at the same time worm-like processes, to many times its former bulk, of a very light material of the color of graphite." For some time, a firework product called "Pharaoschlangen" was available to the public in Germany, but was eventually banned when the toxic properties of the product were discovered through the deaths of several children that had mistakenly consumed the resulting solid.[4]

Description

The Pharaoh's snake experiment is conducted in the same manner as the sugar snake experiment, however, the former uses mercury(II) thiocyanate (Hg(SCN)2) instead of powdered sugar with baking soda. This must be done in a fume hood because all mercury compounds are hazardous.

Chemical reactions

After igniting the reagents, mercury(II) thiocyanate breaks down to form mercury(II) sulfide (HgS), carbon disulfide (CS2), and carbon nitride (C3N4). Graphitic carbon nitride, a pale yellow solid, is the main component of the ash.[1]

2Hg(SCN)2(s) → 2HgS(s) + CS2(l) + C3N4(s)[1]

Carbon disulfide ignites into carbon dioxide (CO2) and sulfur(IV) oxide (SO2).

CS2(l) + 3O2(g) → CO2(g) + 2SO2(g)[1]

While carbon nitride (C3N4) will break down into nitrogen gas and dicyan

2C3N4(s) → 3(CN)2(g) + N2(g)[1]

When mercury(II) sulfide (HgS) reacts with oxygen (O2), it will form gray mercury vapor and sulfur dioxide. If the reaction is performed inside a container, a gray film of mercury coating on its inner surface can be observed.

HgS(s) + O2(g) → Hg(l) + SO2(g)[1]

Sugar snake

Unlike the carbon snake, which involves the reaction of sulfuric acid instead of sodium bicarbonate, the sugar snake grows relatively faster and to a significantly larger volume.

Description

Sucrose:Sodium bicarbonate (4:1) placed on top on sand and ethanol.

Solid fuel is used in this experiment. The solid fuel can be sand that is sufficiently covered in ethanol or hexamethylenetetramine. A white mixture of sucrose and sodium bicarbonate will eventually turn black and the snake will grow about 15–50 centimetres (5.9–19.7 in) long after it is lit.[5]

Chemical reactions

Three chemical reactions occur when the snake is lit. Sodium bicarbonate breaks down into sodium carbonate, water vapor, and carbon dioxide:[2]

2NaHCO3(s) → Na2CO3(s) + H2O(g) + CO2(g)

Burning sucrose or ethanol (reaction with oxygen in the air) produces carbon dioxide gas and water vapor:[2]

C12H22O11(s) + 12O2(g) → 12CO2(g) + 11H2O(g)
C2H5OH(l) + 3O2(g) → 2CO2(g) + 3H2O(g)

Some of the sucrose does not burn, but merely decomposes at the high temperature, giving off elemental carbon and water vapor:[5]

C12H22O11(s) → 12C(s) + 11H2O(g)

The carbon in the reaction makes the snake black. The overall process is exothermic enough that the water produced in the reactions is vaporized. This steam, in addition to the carbon dioxide product, makes the snake lightweight and airy and allows it to grow to a large size from a comparably small amount of starting material.[5]

Use

It is a popular firecracker item in India, which children play with during the festival of Diwali.

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gollark: The law is with you as long as few enough people start saying wrong things™ on the internet (or, well, specifically your platform) that people start complaining a lot. Public opinion might not be. The issue with making a new less-moderated version of something is that it inevitably attracts a few people who genuinely care about free speech a lot, and probably a lot who want to say terrible/stupid things somewhere.
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gollark: I have 34Mbps up, 8Mbps down, which is not ideal but usable.

See also

References

  1. Helmenstine, Anne Marie. "How to Make a Pharaoh's Snake Firework". Archived from the original on 17 October 2019. Retrieved 16 October 2019.
  2. Helmenstine, Anne Marie. "How to Make Black Snake or Glow Worms". Archived from the original on 14 October 2019. Retrieved 16 October 2019.
  3. "LISTSERV 15.0 - CHEMED-L Archives". Mailer.uwf.edu. Archived from the original on 2006-09-13. Retrieved 2009-04-05.
  4. Davis, T. L. (1940). "Pyrotechnic Snakes". Journal of Chemical Education. 17 (6): 268–270. doi:10.1021/ed017p268.
  5. "Sugar snake". MEL Science. MEL Science 2015–2019. Archived from the original on 6 October 2019. Retrieved 28 October 2019.
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