yes
The chemical equation for the reaction of acetylene (C2H2) with two molecules of Br2 (bromine) is: C2H2 + 2Br2 → C2H2Br4
AgNO3 powder is white but a little grey solid.
155.0 mL x 0.274 M SO42- reacts with 155.0 x 0.274 * 2 (Ag+/SO42-) = 84.94 mmol Ag+84.94 mmol Ag+ is in 84.94 (mmolAg+) / 0.305 (M Ag+) = 84.94/0.305 = 278.5 mL of 0.305 M Ag+.Na+ and NO3- are tribuned out of this reaction.
C2H2 (acetylene) has the lowest boiling point among the molecules listed. This is because it is a small, nonpolar molecule with weak intermolecular forces, which results in low boiling point.
C2H2 + H2O ---> CH3CHO Acetaldehyde is the final product formed when water adds to acetylene. Generally a catalyst is required for this reaction.
How many moles of CO2 are produced when 2.1 mol of C2H2 react?
Silver nitrate doesn't react with nitric acid.
These compounds react forming a white insoluble precipitate - silver chloride: NaCl + AgNO3 = AgCl + NaNO3
2C2H2 + 5O2 ---->4CO2 + 2H2O so 1 mole of acetylene (ethyne) reacts with 2.5 moles of oxygen. Answer 2.5 moles
No, it is not recommended to store AgNO3 solution in copper vessels as copper can react with the silver nitrate and form copper nitrate, which can contaminate the solution and affect its stability. It is better to use glass or plastic containers for storing AgNO3 solution.
When AlCl3 reacts with HNO3, the products are Al(NO3)3 and HCl. When AlCl3 reacts with AgNO3, the products are AgCl and Al(NO3)3.
Potassium chloride is react with AgNO3 , the chloride ion subtract from potassium chloride to form silver chloride precipitate and potassium nirate. KCl + AgNO3 → KNO3 + AgCl↓
Acetylene Hydroxide is not a known species. Deprotonated Acetylides react and form salts with group 1 metals fairly easily. Sodium Acetylide is a VERY strong base used in organic chemistry, more often than not, to build carbon-carbon bonds, and then later reduced to form olefins and aliphatic carbon. Acetylene gas may react very violently with concentrated nitric acid, being that the carbon-carbon triple bond is easily oxidizable and nitric acid is a strong oxidizer.
To determine this, you need the concentration of the NaCl solution. Once you have that, you can use the stoichiometry of the reaction between AgNO3 and NaCl to calculate the volume of 0.117 M AgNO3 needed. The balanced chemical equation for this reaction is: AgNO3 + NaCl → AgCl + NaNO3.
An example is the precipitation reaction with silver nitrate: NaCl + AgNO3 = NaNO3 + AgCl(s)
Discolored AgNO3 in the titration with KSCN may indicate the presence of impurities or decomposition of the solution. This can lead to inaccurate results in the titration as the discolored solution may not react as expected with KSCN. It is important to use a fresh and clear AgNO3 solution for accurate titration results.
yes a salt will react with another salt if another substance such as acid was added also.