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Burn the splint to orange bright by shaking off the flame on it. Insert the splint into a test tube of gas. If it glows brightly, the gas is oxygen. If it pops, it is hydrogen.
oxygen
the lighted splint would stop burning as Helium does not burn.
The reaction between carbon dioxide (CO2) and a burning splint is that the splint will extinguish. This is because CO2 is a non-flammable gas, which lacks oxygen to support combustion. When brought into contact with a burning splint, it displaces the oxygen and prevents the splint from continuing to burn.
Insert a lighted splint into the reaction test tube. If it extinguishes with a "pop" sound, Hydrogen is present. The duller the pop the purer the hydrogen is.---------------------------------------------------------------------------------------------P.S. that's a burning splint.
Yes.
hydrogen
Burn the splint to orange bright by shaking off the flame on it. Insert the splint into a test tube of gas. If it glows brightly, the gas is oxygen. If it pops, it is hydrogen.
oxygen
the lighted splint would stop burning as Helium does not burn.
Oxygen
Nitrogen
You can test the presence of hydrogen gas by using a burning splint and if the gas makes a "popping" noise
POP!
The reaction between carbon dioxide (CO2) and a burning splint is that the splint will extinguish. This is because CO2 is a non-flammable gas, which lacks oxygen to support combustion. When brought into contact with a burning splint, it displaces the oxygen and prevents the splint from continuing to burn.
Hydrogen, H2
hydrogen gas is H2 When H2 reacts with oxygen and fire (energy) It is combustion H2+ 02= 2(H20) Which is water. In that state it is water vapor. A popping noise is also made. That is water vapor racing out. The burning splint tests, basically, is when an individual lights a splint. On lighting this splint, it should be placed near a bottle containing hydrogen gas [ H2 ]. On carrying out this action, the glowing splint may increase in size, regarding the size of the flame, that is. The Hydrogen gas, on the other hand, will make a popping sound. The intensity of the 'pop' will depend on the amount of Hydrogen gas collected in the bottle. Take care to ensure that no Hydrogen gas escapes, or is released from the bottle, until the splint is placed, at least 2 inches away from the opening of the bottle.