* here are a few answers... * The relative density of BCl radicals in inductively-coupled plasmas has been studied using laser induced fluorescence and plasma induced emission * The common sense of operation current density (kA/m2) of 3-4 kA/m2 in the industry has become obsolete and high electric density operation with a rated operation electric current density of 5kA/m2 (more than 6kA/m2) becomes possible * The above and related objects are accomplished by utilization of electrical insulation formed from a normally solid, linear olefin polymer containing from about 1 to about 20 percent by weight of chlorine chemically combined...
For metals high electronegativity mean low reactivity; for halogens, C, O, N, S, etc. the meaning is high reactivity.
Electronegativity - capacity to loss electrons - is representative for the reactivity of chemical elements; for metals low electronegativity is a high reactivity.
Noble gases are known for their low reactivity because they have a full valence shell of electrons, making them stable and less likely to form compounds with other elements.
Lead has low reactivity because it is a stable metal with a full outer electron shell. It does not readily react with other elements or compounds at moderate temperatures.
Low reactivity metals can easily found in earth.
Oxygen's reactivity is considered high as it readily forms compounds with other elements. Its high reactivity is demonstrated in processes such as combustion, rusting, and respiration.
For metals high electronegativity mean low reactivity; for halogens, C, O, N, S, etc. the meaning is high reactivity.
Electronegativity - capacity to loss electrons - is representative for the reactivity of chemical elements; for metals low electronegativity is a high reactivity.
low boiling point and high reactivity
Noble gases are known for their low reactivity because they have a full valence shell of electrons, making them stable and less likely to form compounds with other elements.
Lead has low reactivity because it is a stable metal with a full outer electron shell. It does not readily react with other elements or compounds at moderate temperatures.
Low reactivity metals can easily found in earth.
It is more likely to attract electrons. :)
Iodine. Bromine and iodine are both halogens in the same group on the periodic table, so they exhibit similar chemical properties. They both have similar reactivity and can form similar compounds.
Bromine is more reactive than mercury. Bromine is a halogen and is known for its high reactivity, while mercury is a metal known for its low reactivity.
Tantalum, platinum and gold are very stable metals and have low reactivity.
Low reactivity.