The gas particles will gain more kinetic energy and speed up. If they are in a
closed container, the increased speed of the particles will make the particles hit
the sides of the container more often, increasing the pressure inside of the
container.
On cursory inspection at the macroscopic level, the result is hot gas.
When you combine magnesium dioxide with a burning wood splint in a gas generating bottle, the magnesium dioxide undergoes a chemical reaction in which it decomposes to form magnesium oxide and oxygen gas. The burning wood splint acts as a source of heat to initiate the reaction. The oxygen gas produced can be collected in the gas generating bottle.
When sulfur is added to oxygen, they can combine to form sulfur dioxide (SO2) gas. This reaction is exothermic and releases heat energy. Sulfur dioxide is a colorless gas with a sharp, pungent smell.
When sulfur and hydrogen gas react, they combine to produce hydrogen sulfide, which is a colorless gas with a characteristic foul odor, similar to that of rotten eggs. The chemical equation for this reaction is: S + 2Hβ β HβS. This reaction is exothermic, meaning it gives off heat during the process.
When heat is applied to a gas, its particles gain energy and move faster, increasing their kinetic energy. This causes the gas to expand and its pressure to increase. If enough heat is applied, the gas may change phase and become a plasma.
When hydrogen reacts with chlorine in direct sunlight, they combine to form hydrogen chloride gas. This reaction is highly exothermic and produces a lot of heat and light. The reaction is also photochemical, meaning it is initiated by the energy of sunlight.
When you combine magnesium dioxide with a burning wood splint in a gas generating bottle, the magnesium dioxide undergoes a chemical reaction in which it decomposes to form magnesium oxide and oxygen gas. The burning wood splint acts as a source of heat to initiate the reaction. The oxygen gas produced can be collected in the gas generating bottle.
You get an explosion.
Nothing.
When sulfur is added to oxygen, they can combine to form sulfur dioxide (SO2) gas. This reaction is exothermic and releases heat energy. Sulfur dioxide is a colorless gas with a sharp, pungent smell.
It provides heat to the surface it condenses to. That is why gas condenses on cold surfaces.
It turns straight into a gas. Hope this helps :-)
The pressure is higher.
it gives off its gas and heat
The combination of the atoms releases heat energy.
When you heat a liquid, it turns into a gas through a process called evaporation or vaporization. The heat increases the kinetic energy of the liquid particles, causing them to break free from their liquid form and become a gas.
Applying heat to a gas will make it expand. If the volume of the gas is restricted (i.e. it cannot expand) then the pressure will increase.
When sulfur and hydrogen gas react, they combine to produce hydrogen sulfide, which is a colorless gas with a characteristic foul odor, similar to that of rotten eggs. The chemical equation for this reaction is: S + 2Hβ β HβS. This reaction is exothermic, meaning it gives off heat during the process.