The decomposition of nitroglycerine occurs in a bomb explosion rather than combustion because the reaction is rapid and uncontrollable, releasing heat and gases at a faster rate than combustion. This rapid release of energy causes an explosive shock wave that shatters the container and creates the destructive force associated with explosions.
Natural gas explodes through combustion, not decomposition. When natural gas comes into contact with an ignition source, it mixes with oxygen in the air and rapidly combusts, releasing energy in the form of heat and light.
A Combustion reaction
Combustion releases nitrogen oxides into the atmosphere, which can contribute to acid rain and smog. This can lead to increased nitrogen deposition onto the earth's surface, affecting nutrient cycling and potentially causing imbalances in ecosystems. Additionally, nitrogen oxides can contribute to climate change by acting as greenhouse gases.
Chemical energy in the gunpowder is transformed into thermal, light, and sound energy when a firecracker explodes. The chemical energy is released as heat and light from the rapid combustion of the gunpowder, creating the explosion and producing sound waves.
When salt is heated, it undergoes a physical change and may melt, releasing water vapor due to its hygroscopic nature. At very high temperatures, salt can decompose into its constituent elements, sodium and chlorine, through a chemical process called thermal decomposition.
Natural gas explodes through combustion, not decomposition. When natural gas comes into contact with an ignition source, it mixes with oxygen in the air and rapidly combusts, releasing energy in the form of heat and light.
Combustion.
A Combustion Reaction
A Combustion reaction
When a firecracker explodes, chemical energy stored in the fireworks' gunpowder is rapidly converted into thermal (heat) and light energy. The gunpowder undergoes a rapid combustion reaction, releasing energy in the form of heat and light as the firecracker explodes.
Gasoline engine is an internal combustion engine where a diesel is an internal compression engine. Gasoline is highly flammable and explodes when an electrical spark is applied to it where diesel explodes when it is put under pressure
The reaction is called combustion, specifically combustion of the gasoline-air mixture. The spark ignites the mixture, leading to a rapid release of energy that causes an explosion. This is the principle behind how internal combustion engines work in vehicles.
Combustion reaction, or decomposition reaction. Gunpowder explodes because the carbon and sulfur are burned rapidly making lots of expanding gases. Nitroglycerine explodes because the molecules are unstable and decompose into more stable molecules, which are gases and must expand rapidly because any gas occipies more than 1000 times the volume of the liquid it comes from. Atomic bombs are neither ... they release so much energy that they heat the air to nearly 1 million degrees and this causes the rapid expansion known as an explosion. So maybe what you are looking for isn't a chemical answer, but just a very radip expansion of gases.
Fuel burning is the burning of fuel. In an automobile engine it is called combustion. The gasoline mixed with oxygen and ignited by the spark plugs explodes.
When a person "explodes," such as in a violent accident or explosion, it is typically the result of intense force or pressure impacting the body, causing internal organs to rupture and potentially burst outward. In such cases, the internal organs would likely be the first components to be affected and potentially "explode" before any external parts of the body.
Works due to combustion i.e. it explodes and and the force of the explosion forces the engines piston away from the force of the explosion, which happens in an enclosed area.
A Combustion reaction