1.2 gallons
t = number of liters of 30% acid solution s = number of liters of 60% acid solution t+s=57 .30t+.60s=.50*57 t=57-s .30(57-s)+.60s=.50*57 .30*57 -.30s +.60s = .50*57 .30s = .50*57 - .30*57 = .20*57 s = .20*57/.30 = 38 liters of 30% solution t = 57 - s = 57-38 = 19 liters of 60% solution
When sodium hydroxide (NaOH) reacts with chlorine gas (Cl2), they undergo a redox reaction to produce sodium hypochlorite (NaOCl) and sodium chloride (NaCl). This reaction is commonly used in the production of bleach.
On excessive cooling may produce colloidal particles from true solution or a reaction with another substance may produce such solution.
The limiting reactant is chlorine.
When iodine solution is mixed with starch solution they produce blue-black color.
Not safely. Sodium hypochlorite is very alkaline, which on its own is enough to make it dangerous. Additionally, sodium hypochlorite will react with hydrochloric acid, which is in stomach acid, to produce chlorine gas, which is extremely toxic.
Reacting chlorine and sodium hydroxide will produce sodium hypochlorite: Cl2 + 2NaOH = NaOCL + NaCl + H2O
This may be a trick question, electrolyis of a sodium chloride solution produces chlorine at the anode but does not produce sodium at the cathode. Electrolysis of molten sodium chloride does however produce sodium and chlorine.
To make a basic solution, it has to contain available hydroxide ions. Chlorine doesn't, so it can't be basic.
96
Calcium hypochlorite is put into water, and releases Chlorine, which disinfects the Water. Here is the equation for the total process: Ca(ClO)2 + H2O ----> Ca(OH)2 + HClO HClO ----> HCl + [O] ----> H2O + Cl2 First Calcium hypochlorite reacts with water to produce the unstable oxidizer Hypochlorous acid. This compound decomposes to Hydrochloric acid and Nascent oxygen. Nascent oxygen then oxidizes Chloride ions in Hydrochloric acid to Chlorine. This Chlorine comes out in the form of bubbles and kills all harmful organisms in the contaminated water.
It is bleaching powder. There is a industrial process.
48.5
Electrolyse the molten salt. This will form sodium at the cathode and Cl2 at the anode. Electrolysis of an aqueous solution odf salt will produce hydrogen at the cathode and chlorine gas at the anode.
Used for salt water pools, it uses salt to create chlorine... here is a more advanced answer.. from me. .. The chlorine generator (also known as salt cell, salt generator, salt chlorinator) uses electrolysis in the presence of dissolved salt (NaCl) to produce hypochlorous acid (HCIO) and sodium hypochlorite (NaClO), which are the sanitizing agents already commonly used in swimming pools. As such, a saltwater pool is not actually chlorine-free; it simply utilizes a chlorine generator instead of direct addition of chlorine.
Chlorine itslf is not mined. The materials used to produce chlorine (NaCl) is mined. Chlorine is produced by electrolytic reaction of a chloride solution (e.g. NaCl) in a process involving a diaphragm cell or a mercury cell. The mercury cell process has been largely discontinued because of its associated loss of mercury to the environment.
Sodium bromide reacts with chlorine to produce sodium chloride and bromine. 2NaBr + Cl2 --> 2NaCl + Br2. Bromine in color, though may appear yellowish in low concentrations.