Explosives are materials that rapidly release large amounts of energy when detonated, resulting in a pressure shock wave. The rapid expansion of gases generated by the explosive reaction creates the shock wave that can cause damage to surrounding structures and objects.
Explosives fall under the CBRNE category that rapidly release large amounts of energy and produce a pressure shock wave during detonation. This category includes materials like bombs and improvised explosive devices (IEDs) that are capable of causing significant damage and destruction.
TNT, RDX, and PETN are examples of CBRNE agents that release a large amount of energy and produce a pressure shock wave during detonation. These materials are commonly used in explosives due to their destructive capabilities.
The CBRNE agent that fits this description is explosive materials like TNT or RDX. These materials release a large amount of energy rapidly upon detonation, creating a pressure shock wave that can cause damage to surrounding structures and individuals.
Biological
Coal is formed from plant material that is buried and subjected to high pressure and heat over millions of years. When coal is burned to produce thermal energy, it releases heat energy through combustion that can be used to generate electricity or heat homes and buildings. However, this process also releases greenhouse gas emissions and air pollutants that contribute to air pollution and climate change.
Explosives fall under the CBRNE category that rapidly release large amounts of energy and produce a pressure shock wave during detonation. This category includes materials like bombs and improvised explosive devices (IEDs) that are capable of causing significant damage and destruction.
Eutrophication and algal blooms
TNT, RDX, and PETN are examples of CBRNE agents that release a large amount of energy and produce a pressure shock wave during detonation. These materials are commonly used in explosives due to their destructive capabilities.
Nuclear fusion releases huge amounts of energy. It occurs when the nuclei of elements are fused together at high temperatures and high pressure. Fusion energy is used to produce energy for some of the Earth's cities.
The CBRNE agent that fits this description is explosive materials like TNT or RDX. These materials release a large amount of energy rapidly upon detonation, creating a pressure shock wave that can cause damage to surrounding structures and individuals.
Biological
Nuclear fusion. The sun has such a huge mass and high internal pressure as well as incredible heat, it fuses atoms of gas together in it's core which releases massive amounts of energy. The typical fuel used in the sun is "heavy hydrogen" which is fused together to produce Helium and water.
Yes, mold can produce small amounts of carbon dioxide as part of its natural metabolic processes. Mold releases carbon dioxide as it breaks down organic matter for energy and growth.
Radioactive fuel is a substance, such as uranium or plutonium, that undergoes nuclear fission in a reactor to produce energy. This process releases large amounts of heat that can be converted into electricity.
Mulch itself does not produce CO2. Instead, when organic mulch decomposes, it releases small amounts of CO2 as a byproduct of the natural decomposition process. The amount of CO2 released will depend on factors such as the type of mulch, its thickness, and environmental conditions.
A Star will produce its own light, through the nuclear fusion of hydrogen, which releases vast amounts of energy. Planets are not large enough for the required conditions to occur for this reaction, so they don't produce energy in this way.
Quite simply - a pressure-sensitive membrane. Different amounts of pressure produce a variable voltage - which is converted into a visual representation of what the user writes.