They are things like firecrackers , bullets and dynamite.
High explosives detonate rapidly, creating a supersonic shockwave, while low explosives deflagrate at a slower rate. High explosives are used in activities like mining and demolition, while low explosives are commonly found in fireworks and propellants.
Low explosives deflagrate (burn) at a subsonic speed, while high explosives detonate at a supersonic speed, resulting in a shock wave. Low explosives are slower and less powerful, often used in fireworks and pyrotechnics, while high explosives are faster and more powerful, commonly used in military and mining applications.
Primary and secondary explosives. The definitions of these are rather loose, however typically primary explosives will detonate when ignited (example: mercury fulkminate), and secondary explosives require a shockewave to detonate (example: TNT). The most accurate definition is when used in the context of an "explosive train" whereby a fuse ignites the primary high explosive which undergoes deflagration to detonation transition, this detonation produces a shockwave which is used to initiate a secondary high explosive. So explosive compounds are classified into primary or secondary based there primary use.
Nitrogen is the element found in fertilizers, explosives (such as TNT), and cryogenics (such as liquid nitrogen). Nitrogen is an essential nutrient for plants in the form of nitrates in fertilizers, a key component in the composition of explosives, and used in cryogenics for its low temperature properties.
Petard
Medium explosives are materials with a moderate amount of power and sensitivity, falling between low and high explosives. They are often used in mining, construction, and military applications for their ability to generate controlled explosions. Examples of medium explosives include TNT (trinitrotoluene) and RDX (cyclotrimethylenetrinitramine).
The three categories of explosives are: high explosives, including dynamite and TNT, which detonate with a supersonic shockwave; low explosives, such as black powder and gunpowder, which deflagrate with a subsonic burn rate; and secondary explosives, like RDX and PETN, which are more powerful and sensitive than primary explosives like TNT.
The most widely used low explosives are black powder, smokeless powder, and pyrotechnic compositions. These explosives are commonly used in firearms, fireworks, and industrial applications due to their controlled burn rate and relatively low sensitivity to shock or friction.
I have low tolerance for ignoramus people.
Explosives are classified by their sensitivity, energy output, and chemical composition. They can be grouped into categories such as high explosives (e.g., TNT, C4), low explosives (e.g., black powder, fireworks), and blasting agents (e.g., ANFO). These categories are further divided based on their intended use and potential hazards.
High explosives detonate rapidly, creating a supersonic shockwave, while low explosives deflagrate at a slower rate. High explosives are used in activities like mining and demolition, while low explosives are commonly found in fireworks and propellants.
Low explosives deflagrate (burn) at a subsonic speed, while high explosives detonate at a supersonic speed, resulting in a shock wave. Low explosives are slower and less powerful, often used in fireworks and pyrotechnics, while high explosives are faster and more powerful, commonly used in military and mining applications.
they leave large ordnance fragments containing explosives and may leave chunks or pieces of exposed explosives; do not remove remaining debris.
A f r i c a !
leave large ordnance fragments containing explosives and may leave chuncks or pieces of exposed explosives; do not move remaining debris
some of the low cost fuels are bio ethanol,bio methanol,cellulose bio mass etc.
Many explosives are not detectable by x-ray machines, due to their low density. Inspection or bomb sniffing dogs are the only reasonably reliable ways to detect such low density high explosives.