This would be an oxidation-reduction reaction (or a single replacement reaction). On the left side of the equation, chlorine (Cl) has a negative charge, because it is bonded to sodium (Na). After it goes through the reaction, it is replaced by fluorine (F), making it Cl2 on the product side. As a atom that is not bonded, its charge is 0. The charge on Cl went from -1 to 0, so it is oxidized. The other anion, F, is reduced (the charge decreases from 0 to -1.
It is not possible.
reaction of NaBr+Cl2
It has to be Pb(NO3)2 with NaCl as Pb has a +II oxidation state and NO3 has -I oxidation state. The reaction is the following: Pb(NO3)2 +2NaCl ----> PbCl2 + 2NaNO3
Not a combustion reaction. Combustion reactions produce CO2 and H2O.
2F2 + 4NaOH >> 4NaF + O2 + 2H2O
Any reaction occur.
Any reaction occur.
The reaction i the following:2 NaCl + F2 = 2 NaF + Cl2
An acid-base reaction yielding a salt and water.
Yes, this reaction is possible. Fluorine will displace chlorine from some compounds.
It is a REDOX reaction. Sodium is oxidized by Fluorine which is itself reduced by the sodium. 2Na + F2 = 2NaF.
it is
Any reaction between NaCl and H.
This reaction is called a "single displacement" reaction, as the sodium replaces the potassium in combination with the chlorine. *This is the high-temperature distillation reaction to produce metallic potassium, and is not a spontaneous reaction because potassium is more reactive than sodium. The corresponding single replacement reaction is K + NaCl => Na + KCl.
A Double displacement reaction or Neutralization reaction
This is usually called a "displacement" reaction; a metal higher in the electromotive series is displacing a metal below it in the electromotive series in a compound of the latter.
NaCl + H2CO3