You'd still have poisonous chlorine gas, and it would be as toxic as it was before you added the neutron. But there is more news, and it's bad. By adding a neutron to each of the atoms, you'd end up with unstable isotopes of chlorine, which means that all your chlorine gas is now radioactive and presents a radiation hazard as well as being as poisonous as it was originally.
When chlorine gas is added to potassium iodide solution, potassium chloride and iodine are formed. The balanced chemical equation for this reaction is 2KI + Cl2 → 2KCl + I2.
As it is commonly found in pools - No. It can be toxic if inhaled or exposed on high concentrations. One way this sometimes happens at home and by accident is if people stand by the edge of the pool and pour a large amount of chlorine into the water. Dangerous chlorine gas vapors can rise from the water and cause unconsciousness and drowning if the person happens to fall forward into the pool. This generally requires standing in one position for a long time, often hunched over the pool, while a lot of chlorine is added to the water.
Excessive levels of chlorine stabilizer can reduce the effectiveness of chlorine in the pool. Try diluting the pool water by partially draining and refilling it to lower the stabilizer concentration. Test the water again after dilution to see if the chlorine levels improve.
When chlorine is added to potassium iodide, it will undergo a redox reaction. Chlorine will oxidize iodide ions in potassium iodide to form iodine and chloride ions. The overall reaction can be represented as Cl2 + 2KI -> 2KCl + I2.
You end up with chlorinated water This is what ha pens with saltwater chlorinaters in saltwater pools. No, You end up with Chlorinated Water if you add Chlorine to water, but Chlorine Gas and Water react to make HOCl and HCl, both toxic. Cl2 + H2O à HCl + HOCl
When a proton is added to chlorine, it becomes a chloride ion with a -1 charge due to gaining an extra proton. This change results in an increase in positive charge, altering its reactivity and properties when compared to neutral chlorine.
When clhlorine is added to silver nitrate a milky white precipitate of Silver Chloride is formed. Potassium nitrate is also formed. When chlorine is added to potassium chloride nothing visible happens but the solutiuon become more acidic.
When chlorine is added to a solution containing bromine ions, the chlorine will react with the bromine ions to form a mixture of chlorine and bromine compounds, such as bromine chloride. This reaction is a redox reaction where chlorine is reduced and bromine is oxidized.
When a proton is added to a germanium nucleus, the overall charge of the nucleus increases by one unit, making it less stable. This can lead to the germanium nucleus undergoing beta decay to regain stability, where a proton is converted into a neutron by emitting a positron and a neutrino.
A proton and a neutron added together would be Deuterium without an electron.
When chlorine is added to fluoride, they can react to form various chlorine fluorides such as ClF or ClF3. These compounds are highly reactive and potentially dangerous due to their strong oxidizing properties. It is important to handle these compounds carefully in a controlled environment.
The prefix "non-" must be added to form the word "non-poisonous."
No, it is not poisonous, in fact it's added to many foods.
When chlorine gas is added to potassium iodide solution, potassium chloride and iodine are formed. The balanced chemical equation for this reaction is 2KI + Cl2 → 2KCl + I2.
When chlorine solution is added to sodium astatide solution, a chemical reaction may occur where the chlorine displaces the astatine in the compound, forming sodium chloride and releasing free astatine. This reaction is generally not advisable due to the hazardous nature of astatine and the potential formation of toxic compounds.
A chloride ion is slightly larger than a chlorine atom, because in an ion there is one more electron than proton, allowing the electron shells to expand slightly. In a chlorine atom, the number of electrons and protons is the same.
a small amount of ethanol [ C2H5OH] is added in drinks .......but when methyl alcohol i.e. CH3OH ....is added to it the drinks become poisonous .