Alkali metals, such as sodium and potassium, are most likely to react vigorously with water. This reaction produces hydrogen gas and a strong alkaline solution.
Technetium primarily forms compounds in the +4, +5, +6, and +7 oxidation states. The most common oxidation states for technetium are +4 and +7.
Chlorine is the element that will most likely react similarly to fluorine because they are both part of the halogen group, which are highly reactive nonmetals with similar chemical properties.
Technetium is not commonly found in household items as it is a rare and radioactive element. Its most common application is in nuclear medicine for diagnostic imaging.
Mg will most likely react with elements in Group 17 (halogens) to form ionic compounds, such as magnesium chloride (MgCl2).
The hyphen notation of the most common isotope of technetium, technetium-98, is 98Tc.
Chlorine is the element most likely to react with aluminum, forming aluminum chloride through a chemical reaction.
egg shells will most likely react with vinegar and sprite
Technetium react with oxygen, halogens, oxygen, sulfur, selenium, tellurium, boron, carbon etc. and can form alloys with metals.Technetium is dissolved in inorganic acids excepting hydrochloric acid.The Pauling electronegativity is 1,9. Technetium oxidation states are between -1 and +7; the most usual valences are +3, +4 and +7.
Technetium is not abundant. Compounds of Tc are most used.
Technetium oxidation states are between -1 and +7; the most usual valences are +3, +4 and +7.
Alkali metals, such as sodium and potassium, are most likely to react vigorously with water. This reaction produces hydrogen gas and a strong alkaline solution.
Technetium oxidation states are between -1 and +7; the most common are 4,5 and 7.
Technetium valences are between -1 and +7; the most usual valences are +3, +4 and +7.
they most likely run and panic
Technetium primarily forms compounds in the +4, +5, +6, and +7 oxidation states. The most common oxidation states for technetium are +4 and +7.
They will most likely ALL get scared.