Baking soda (sodium bicarbonate) and Coke (carbonated water with phosphoric acid) react together because the acid in the Coke reacts with the base in the baking soda to produce carbon dioxide gas. This reaction creates fizzing and bubbling due to the release of carbon dioxide gas.
Mixing coke and baking soda will create a chemical reaction that produces carbon dioxide gas, causing fizzing. This reaction is due to the acid in coke reacting with the alkaline baking soda. It is often used as a household cleaner or to unclog drains.
Mixing baking soda (sodium bicarbonate) and Coke (carbonated water with sugar and flavorings) results in a chemical reaction where the carbon dioxide in the Coke is released. This reaction causes fizzing and bubbling due to the release of carbon dioxide gas.
Diet Coke reacts with baking soda due to the presence of carbon dioxide in the soda. When the two substances come into contact, a chemical reaction occurs, producing carbon dioxide gas bubbles. This reaction is similar to the fizzing that occurs when baking soda is combined with vinegar.
Mixing baking soda, coke (soda), and salt will create a fizzy reaction due to the carbonation in the soda combined with the acidic properties of the ingredients. This reaction will release carbon dioxide gas, leading to bubbling and fizzing. However, the result is not harmful and is often done for fun science experiments.
The reaction between baking soda and vinegar generates carbon dioxide gas. It can be used in chemical volcanoes and other science projects.
Mixing coke and baking soda will create a chemical reaction that produces carbon dioxide gas, causing fizzing. This reaction is due to the acid in coke reacting with the alkaline baking soda. It is often used as a household cleaner or to unclog drains.
Mixing baking soda (sodium bicarbonate) and Coke (carbonated water with sugar and flavorings) results in a chemical reaction where the carbon dioxide in the Coke is released. This reaction causes fizzing and bubbling due to the release of carbon dioxide gas.
Diet Coke reacts with baking soda due to the presence of carbon dioxide in the soda. When the two substances come into contact, a chemical reaction occurs, producing carbon dioxide gas bubbles. This reaction is similar to the fizzing that occurs when baking soda is combined with vinegar.
The caffeine in the coke produces a chemical reaction with the ingredients in the mentors, possibly baking soda? The reaction is a fizzing of the candy. Really tho? Have you never done this as a kid? You had a very awkward childhood.
no but if it's warm it's not as tasty
If you combine Mentos and Diet Coke, you could get a big boom. The coke will react with the mentos, making a chemical reaction together and create the giant explosion.
Mixing baking soda, coke (soda), and salt will create a fizzy reaction due to the carbonation in the soda combined with the acidic properties of the ingredients. This reaction will release carbon dioxide gas, leading to bubbling and fizzing. However, the result is not harmful and is often done for fun science experiments.
I think that Coke and Mentos will do the trick. It has to be REGULAR COKE!The Mint Mentos will work the best.
The reaction between baking soda and vinegar generates carbon dioxide gas. It can be used in chemical volcanoes and other science projects.
Coke does not effect metal, but it can remove rust from metals because of the reaction of the chemical substance "Phosphorous Acid" (chemical formula: H3PO4).
It'll cause a chemical reaction. jdiesel121... this is true it will cause a chemical reaction but depending on the amount of vinegar you put in the powder is how the two react like if you put a little bit of vinegar in alot of powder then it wont do much but if you put alot of vinegar in alot of baking powder then it will be like putting a whole pack of mentos in a two leater of diet coke it goes every where.
No, mixing coke (a carbonated soft drink) and baking soda (a leavening agent) would not create a desirable flavor or combination. They serve different purposes in cooking and should not be combined.