01643nam a22002177a 450000500170000000800410001702200140005810000270007224501190009926000570021830000180027544000720029350500650036552007710043065000440120170000230124585600480126894200080131695200840132499900170140820240117161527.0240116b           ||||| |||| 00| 0 eng d  a0021-9584  aKuntzleman, Thomas S.   aQuantifying the Dynamics of the Candy Cola Soda Geyser Using a Simple and Inexpensive Protocol b(Journal Article)  aWashington DC b: American Chemical Society c, 2023  a4114–4118p.  aJournal of Chemical Society v, Volume 100: Number 10, October 2023  a***______{For Hard Copy, Please visit Library.}________***

  aAbstract: A variety of methods have been used to analyze the kinetics of various processes related to the Diet Coke and Mentos experiment (also known as the soda geyser). However, none of these previous reports has undertaken a quantitative exploration of the dynamics of the creation and collapse of the soda geyser itself. We have therefore devised a method for monitoring the time dynamics of the height of the fountain generated when Mentos candies are added to Diet Coke. The procedure involves collecting a video of the fountain using a smartphone and subsequently analyzing the video using a smartphone application. It is noteworthy that the protocol can be used to investigate a process that lasts only 3–4 s with a time resolution of tens of milliseconds.  a Laboratory Instruction| Demonstrations  aKenney, Joshua B.   uhttps://doi.org/10.1021/acs.jchemed.3c00601  cPER  00104070aRIEBPLbRIEBPLd2024-01-17l0r2024-01-17 00:00:00w2024-01-17yPER  c45363d45362