I need to know?
Yeast cells are alive. However, it takes in oxygen in the form of glucose. yeast + glucose -> alcohol + CO2 We know that yeast cells are alive because it produces wastes (alcohol and carbon dioxide) and they reproduce.
You can use yeast as an indicator to test for sugar in a material by observing if the yeast produces carbon dioxide gas when exposed to the material. Yeast consumes sugar to produce carbon dioxide during fermentation. If the material contains sugar, the yeast will produce carbon dioxide, causing bubbling or foaming to occur.
I know that carbon plus oxygen equals iron and iron is what kills stars...
i dont know whether will b chemical but is co2
As anyone who bakes bread, or brew wines and beers will know, yeast needs a moist, warm environment in which there is dissolved liquid sugar available (not salt). The yeast cells rapidly multiply as the yeast feeds off the sugar, and gives off carbon dioxide gas and alcohol. It is the carbon dioxide gas that will inflate the balloon. Salt would probably kill off the yeast.
easy! you would need to add universal indicator and if the pH turned alkaline you would know it was a metal. if it turned acidic however, it would show the characteristics of a non metal. grace x aged 14
Metals less reactive than carbon, such as copper and silver, are extracted by reduction using carbon as a reducing agent. The metal oxide is heated with carbon (in the form of coke) to form carbon monoxide, which then reduces the metal oxide to the pure metal and carbon dioxide.
Metal can be extracted from its oxide by a process called reduction. This involves using a reducing agent such as carbon or hydrogen to remove the oxygen from the metal oxide. The metal is then left in its elemental form.
Yeast is the microorganism that is responsible for fermentation in beer. Yeast metabolises the sugars extracted from grains, which produces alcohol . hope it was satisfactory. Dom
There are 3 as I know of: -Carbon Monoxide -Nitrogen Oxide -Sulphur Dioxide Hope this helps!:3 ~Serph
Oh, dude, that's like a classic example of a redox reaction. You know, where one substance loses electrons and another gains them? It's like chemistry's way of saying, "Hey, let's mix things up a bit and create some new stuff." So yeah, copper oxide and carbon get together, do their little dance, and voila, you've got copper and carbon dioxide hanging out.