At 100 0C and 760 mm col. Hg water is transformed in a gas; at a very high temperature water can be thermally decomposed in elements.
Thermocline is not typically found in high latitudes of ocean waters because of less penetrating heat rays since the sun's energy hits the earth at an angle in the high latitude ocean waters.
Thermocline is not typically found in high latitudes of ocean waters because of less penetrating heat rays since the sun's energy hits the earth at an angle in the high latitude ocean waters.
They don't react to their enemies. They remain in shallow waters to avoid danger.
There is a thermocline present, but it may appear only seasonally. This is due to the fact that the sun's energy hits the earth at an angle (as opposed to straight on) in the high latitude ocean waters. Therefore, less penetrating heat rays = less of a thermocline.
It elongates
Supersonic flights generate high temperatures, which can lead to chemical reactions in the air. The high-speed flow of air around the aircraft can cause molecules to break apart and react with other molecules in the atmosphere. This can create new compounds, such as nitrogen oxides, which can have environmental consequences.
Potassium does indeed react vigorously with acid and also conducts heat well.
Jose Rodrigues has high waters on everyday of the week its all the way to his knee cap. mxjzskzshnjkszmdr
Nerves in your finger react to the heat to keep it from burning
Phosphorus can be destroyed by extreme heat, specifically at temperatures above 300 degrees Celsius. At high temperatures, phosphorus can react with oxygen in the air to form phosphorus pentoxide, leading to its destruction.
Sort of depends on what you mean melt. It will melt/burn when high heat is applied to it. And it will melt if there is moisture in the air for it react with.
salt will react with rubber in the presence of heat, rubber can get brittle.