It goes out.
You can't express that reaction because there isn't one: as CO2 is a well-known fire extinguishing agent, if you put a burning splint in CO2 the splint will go out. And the reason it will go out is CO2 displaces oxygen, which splints need to burn.
To identify gases using a wooden splint and a flame, you can perform two tests: For hydrogen, introduce a lit wooden splint to the gas; if it produces a characteristic "pop" sound, hydrogen is present. For oxygen, place a glowing (but not burning) wooden splint into the gas; if it reignites, oxygen is confirmed. For carbon dioxide, passing the gas over a glowing splint will extinguish it, indicating the presence of carbon dioxide.
Oh, dude, when you put a lit splint into a test tube filled with hydrogen, the hydrogen gas will react with oxygen in the air, causing a tiny explosion. It's like a mini fireworks show, but in a test tube. Just make sure you're not holding it too close to your face when you do it, safety first, right?
collect gas from reaction with a test tube, then light spint and insert into the gas filled tube. if splint is extinguished immediately, then its CO2. but limewater test is more reliable
A splint is a flat piece of a soft wood, about 15 cm long and a few mm wide and about one mm thick. It's used in the UK to show the presence of oxygen from a chemical reaction. The splint is first lit and it burns bright in oxygen.
You can't express that reaction because there isn't one: as CO2 is a well-known fire extinguishing agent, if you put a burning splint in CO2 the splint will go out. And the reason it will go out is CO2 displaces oxygen, which splints need to burn.
When heated, copper(II) carbonate (CuCO3) will decompose to form copper(II) oxide (CuO), carbon dioxide (CO2), and oxygen gas (O2). A wooden splint will continue to burn in the presence of the oxygen gas, producing carbon dioxide and water vapor as it undergoes combustion.
One common way to test for hydrogen gas is to use a lit splint. When a lit splint is brought near a sample of hydrogen gas, it will produce a squeaky pop sound if hydrogen is present. This is due to the combustion of hydrogen gas in the presence of oxygen.
This question doesn't really mean anything without context. If you were trying to identify the gas produced from a chemical combination, then Hydrogen gas makes a lit splint POP and go out. This is the lit flame test. This is relative to CO2 that will actually suppress flame
A lit splint in air will continue to burn as long as there is enough oxygen to support combustion. The flame may flicker or become larger if more air is supplied, and it will eventually burn out once the available fuel is consumed.
One can effectively test for the presence of hydrogen gas by using a lit splint. When the gas is present, it will produce a "pop" sound when the lit splint is brought near it. This is a simple and reliable method to confirm the presence of hydrogen gas.
You can test for the presence of hydrogen gas using a lit splint test. When a lit splint is exposed to hydrogen gas, it will produce a squeaky pop sound, indicating the presence of the gas. This test is based on the highly flammable nature of hydrogen gas.
The CO2 evolved from the reaction extinguishes the flame.
When a lit splint is put into hydrogen, it creates a squeaky pop sound as the hydrogen gas rapidly combusts with oxygen in the air, forming water vapor. This reaction is highly exothermic and releases a significant amount of energy in the form of heat and light.
You can test for oxygen by placing a glowing splint (not lit but not out) into the test tube where you think oxygen is present. If the splint relights, that means that it is oxygen. If this doesn't happen, then in your case it will be nitrogen.
If you place a lit splint into it, the hydrogen will burst and create a squeaky pop. Otherwise, check the reactants you have used.
To identify gases using a wooden splint and a flame, you can perform two tests: For hydrogen, introduce a lit wooden splint to the gas; if it produces a characteristic "pop" sound, hydrogen is present. For oxygen, place a glowing (but not burning) wooden splint into the gas; if it reignites, oxygen is confirmed. For carbon dioxide, passing the gas over a glowing splint will extinguish it, indicating the presence of carbon dioxide.