fireproof banknote
{{short description|Process of making a banknote fireproof}}
File:Scams Banner Euro and Korun.jpg
The fireproof banknote is a demonstration of putting a banknote, previously soaked in 50% (v/v) alcohol fuel solution, to a flame. The fire is lit and later extinguished by itself without the banknote being burnt.{{Cite journal |title=Reinterpreting Popular Demonstrations for Use in a Laboratory Safety Session That Engages Students in Observation, Prediction, Record Keeping, and Problem Solving|journal=Journal of Chemical Education|year=2021 |volume=98|pages=191–197|doi=10.1021/acs.jchemed.9b00474|last1=Limpanuparb |first1=Taweetham |last2=Sathainthammanee |first2=Dulyarat |last3=Pakwilaikiat |first3=Pooh |last4=Kaewpichit |first4=Chatchapong |last5=Yimkosol |first5=Warangkana |last6=Suwannakhan |first6=Athikhun |issue=1 |bibcode=2021JChEd..98..191L |s2cid=216354702 }} This demonstration can be used to teach about the fire triangle and classes of fire.
Explanation
A 50% (v/v) alcohol solution is composed of 50% alcohol and 50% water in which water acts as a solvent. By igniting a paper banknote completely soaked with 50% alcohol solution, the alcohol (which is the fuel in the fire triangle) is combusted into carbon dioxide and water vapour. Contrarily water is heated up, with some being evaporated as it absorbs energy from the combustion of alcohol.{{Cite book|last=Shakhashiri|first=B. Z.|title=Chemical Demonstrations, Vol. 1: A Handbook for Teachers of Chemistry|publisher=University of Wisconsin Press|year=1983|location=Madison, WI|pages=13–14}} The evaporating water helps cool down the system, so not all water is evaporated and the paper banknote is not burnt. The water-to-alcohol ratio should be 50% or higher; a lower ratio leads to the banknote being slightly burnt because there is not enough water to absorb the combustion energy and cool down the system.
CnH2n+1OH{{sub|({{serif|aq}})}} + (3n/2) O2{{sub|({{serif|g}})}} → n CO2{{sub|({{serif|g}})}} + (n+1) H2O{{sub|({{serif|g}})}}
Common alcohol fuels for this experiment can be methanol (n=1), ethanol (n=2) and both isomers of propanol (n=3). The fire lit in this scenario is categorized as a class B fire (fire from flammable liquids), while the fire from burning paper (banknote) is categorized as class A. The alcohol-water mixture flame can be hard to detect, so sodium chloride can be added to give the flames an orange-yellow color.{{Cite web|title=Money to Burn|url=https://edu.rsc.org/experiments/burning-money-what-makes-combustion-happen/836.article|access-date=17 Aug 2021|website=Royal Society of Chemistry}} For safety purpose, a water tray should be prepared for emergency use in case a paper banknote caught a fire, and flammable and combustible materials should not be kept or put near the flame.
Alternative materials or setups
= Other materials =
{{main|Money burning#Legality}}
Euro banknotes are recommended since it is made of paper and it is legally permitted to artistically mutilate it or burn in small amounts.{{Cite web|date=30 Mar 2010|title=The European Commission. Commission Recommendation of 22 March 2010 on the Scope and Effects of Legal Tender of Euro Banknotes and Coins (2010/191/EU)|url=https://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32010H0191:EN:HTML|access-date=20 Aug 2021|website=Official Journal of the European Union}} Moreover, there are no depictions of any persons on the banknotes.
Aside from banknotes, a similar experiment can be performed by using towels, paper{{Cite book|last=Chen |first=P.S. |title=Entertaining and Educational Chemical Demonstrations|publisher=Chemical Elements Publishing Co.|year=1974|pages=53}} or exam paper.{{cite journal |title=Setting Exams on Fire|journal=Journal of Chemical Education|year=1978 |volume=55|pages=655|doi=10.1021/ed055p655.1|last1=Jardin |first1=John |last2=Murray |first2=Peter |last3=Tyszka |first3=Jennifer |last4=Czarnecki |first4=Julian |issue=10 |bibcode=1978JChEd..55..655J }}
= Other setups =
== No material ==
A solution of about 50% fuel alcohol and 50% water can catch on fire and extinguish itself in a "burning water" demonstration.{{Cite book|last=Summerlin |first=L. R. |title=Chemical Demonstrations: A Sourcebook for Teachers, 2nd ed.|publisher=American Chemical Society|year=1988|location=Washington, DC|pages=6}} In contrast to the subsection above, this can be done in a glassware without any absorbing materials like banknotes, towels, or paper.
== No fuel ==
Tap water may be added to a paper bag which then is put on a stove to boil. The paper bag can absorb water, which cools down the system and prevents the paper bag from being burnt.{{Cite web|title=Boil Water in Paper Bag|url=https://science4fun.info/boil-water-in-paper-bag/|access-date=17 Aug 2021|website=Science4Fun|date=19 December 2014 }}
Gallery
File:Fireproof banknote.webm|A video of fireproof banknote experiment
File:Fireproof banknote 2.webm|A video of fireproof banknote experiment
File:Fireproof banknote 3.webm|A video of fireproof banknote experiment
References
{{Reflist}}
{{commonscat|Fireproof banknote experiment}}
Category:Chemistry classroom experiments