"Pyrophoric" Pronounce,Meaning And Examples
"Pyrophoric" Natural Recordings by Native Speakers
"Pyrophoric" Meaning
Pyrophoric refers to a substance that ignites spontaneously in air at or below a certain temperature, typically between 60°C and 73°C (140°F and 163°F). This means that it will catch fire all by itself, without any external heat or flame, when exposed to air.
"Pyrophoric" Examples
Pyrophoric Usage Examples
1. Pyrophoric Materials Handling
Handling pyrophoric materials like white phosphorus requires utmost care as they ignite spontaneously in air at room temperature.2. Pyrophoric Reactions in Chemistry
The highly reactive pyrophoric properties of alkali metals such as sodium and potassium necessitate their storage under an inert atmosphere.3. Natural Pyrophoric Phenomena
Lightning is a natural example of pyrophoric activity in the environment and has the destructive power to ignite fires.4. Working with Pyrophoric Liquids
When handling liquid sodium, employees must be aware of its pyrophoric nature and work in a fume hood to prevent accidental ignition.5. Pyrophoric Substances in Laboratory Settings
Researchers must take strict precautions when working with pyrophoric substances as they do not require an ignition source to cause combustion."Pyrophoric" Similar Words
Pyromucic
Pyromucic refers to a type of chemical compound that is a type of fatty acid found in fragrant flowers, often found in perfume production. These compounds, derived from Greek "pyro", meaning "fire" and "muce", referring to a type of fatty acid, are known for their unique and somewhat oily compositions.
Pyrone
Pyrone refers to any of a class of unsaturated organic compounds that are formed by the removal of a molecule of water from an aldehyde or ketone, leaving behind a double bond. They can be cyclic or non-cyclic in structure and are often associated with the formation of plant resin.
Pyronomics
Pyr-on-omics is a coined term that combines the words "pyro" (meaning fire or heat) and "omics" (a suffix indicating a field of study).<br><br>Pyr-onomics can be interpreted as a field of study related to the application of heat or fire in various scientific disciplines such as biology, chemistry, or physics.<br><br>However, the term "pyronomics" is not a widely accepted or established term in any scientific field, and it's possible that it's a made-up or hypothetical concept.<br><br>If I had to guess, I would say that "pyronomics" might refer to the study of the effects of heat or fire on biological or chemical systems, such as:<br><br> The study of the thermodynamics of combustion reactions<br> The analysis of the effects of heat on biological cells or tissues<br> The application of thermal energy to various scientific or industrial processes<br><br>Please note that this is just speculation, and without more context or information, it's difficult to provide a precise definition or application of the term "pyronomics".
Pyrope
A type of garnet gemstone, transparent to translucent with a deep red to slightly purplish-red color.
Pyrophane
Pyrophanous
Pyrophanous is a rare or obsolete word. It refers to a flexible tube or duct for carrying sparks or flames, often used in ancient and historical contexts.
Pyrophobia
Pyrophone
A pyrophone is a musical instrument that produces sound through the ignition of fuel and air mixtures, typically using a series of valves and chambers to control the combustion process. It is often used in experimental or avant-garde music to create unusual and unpredictable sounds.
Pyrophoricity
Pyrophoricity refers to the property of a chemical compound or element that is capable of spontaneously igniting in air at or below a certain temperature, often when exposed to oxygen. This means that the substance becomes highly reactive and tends to catch fire or ignite rapidly, usually without the presence of an external ignition source.<br><br>In other words, pyrophoricity is the ability of a substance to ignite spontaneously when exposed to air, often resulting in a rapid and uncontrollable combustion reaction. This property can be a significant safety hazard, as it can lead to accidental fires or explosions.<br><br>Examples of pyrophoric substances include:<br><br> Phosphorus<br> Sulfur<br> lodine<br> Some organic compounds, such as tributyl phosphate and t-butyl phosphate<br><br>Pyrophoricity is often used in laboratory settings, where the handling of these substances requires special precautions to prevent accidental ignition and fires.
Pyrophorous
Pyrophorous refers to something that is capable of bursting into flames easily, especially when heated. It comes from the Greek words "pyro" meaning fire and "phoros" meaning bearing or carrying.
Pyrophosphatase
Pyrophosphate
A pyrophosphate is a salt or ester of pyrophosphoric acid, where two phosphate groups form a phosphorus-oxygen-phosphorus bond. Pyrophosphate ions or esters can also be generated in reactions involving phosphorus pentoxide and water: P4O10 + H2O → P2O5 + H4P2O7
Pyrophosphoric
Pyrophosphoric acid is a chemical compound with the formula H4P2O7. It is an acid which is Lewis acid and is the anhydride of dihydrogen pyrophosphoric acid, H4P2O7.
Pyrophosphorylase
Pyrophosphorylase is an enzyme that catalyzes the pyrophosphorylation of an acceptor molecule, meaning it adds a pyrophosphate group (-OPO3) to another molecule. This is often done as a preparative step in chemical synthesis, where a nucleophilic attack by a molecule's group (-OH) is facilitated by a phosphorylable group, usually also one on the enzyme. Several specialized enzymes of this type are known.
Pyrophosphorylated
Pyrophosphorylated refers to a chemical process where a phosphate group is linked to another phosphate group through oxygen atoms. This process creates a pyrophosphate bond, often denoted as P-P or OP-O-PO, which is a high-energy linkage that can be hydrolyzed to release energy, typically to drive various chemical reactions, such as those in metabolism and DNA/RNA synthesis.