Yes, it is true.
what is role of iodine in grignard reaction
I'm almost certain that it can be used as an oxidizing agent. It is not as strong persay as Potassium permanganate, but depending on to what extent you are oxidizing something, that may be a good thing.
No. An oxidizing agent only needs to be able to increase the oxidation state of an element in another substance, which is a matter of electron transfer rather than oxygen. The halogens, especially fluorine, are strong oxidizing agents that do not contain oxygen.
No, lithium is a strong reducing agent.
No. Oxygen is a strong oxidizing agent.
One way to quantify whether a substance is a strong oxidizing agent or a strongreducing agent is to use the oxidation-reduction potential or redox potential. Strong oxidizing agents have low electron-transfer potential.
Transition metal compounds, especially of first period (principally Mn with 7+ and Cr with 6+ charge).
They are Incompatible with STRONG oxidizing agent, and STRONG acids.
They are both strong oxidizing agents, or, in other words, strongly electronegative.
what is role of iodine in grignard reaction
Why fluorine and chlorine act as decolourizing agents? Answer : They can oxidize dyes to colorless substances. Litmus and universal indicators can be decolorized. Chlorine is used in the bleaching powder which bleaches the substances due to oxidizing capabilities of chlorine.
I'm almost certain that it can be used as an oxidizing agent. It is not as strong persay as Potassium permanganate, but depending on to what extent you are oxidizing something, that may be a good thing.
No. An oxidizing agent only needs to be able to increase the oxidation state of an element in another substance, which is a matter of electron transfer rather than oxygen. The halogens, especially fluorine, are strong oxidizing agents that do not contain oxygen.
xenon compounds are super strong oxidizing agents and they react with Lewis acids by donating a fluoride ion to yield XeOF4,Xe,HF,and O2.
No, lithium is a strong reducing agent.
No. Oxygen is a strong oxidizing agent.
a strong alkali has a strong pH of 11-14. 14 being the strongest.