The reaction between hydrogen and oxygen to form water is a synthesis reaction. It is also a combustion reaction since it involves a chemical reaction of a fuel (hydrogen) with an oxidant (oxygen) to produce water and release energy in the form of heat.
When any carboxylic acid is place in water, hydrogen ion transfer occurs to produce hydronium ion and carboxylate ion. ( R-COOH + H20 = H30 + R-COO- ) So formic acid with the addition of water is HCOOH + H20 = H30 + HCOO-
Concentrated sulfuric acid is typically around 18 M in strength.
What I can tell you is that H30 is formed when an acid comes into contact with water and all acids have a hydrogen proton ion so when it combines h20 becomes h30 so H30 and OH would be H302 well that's all hoped i helped.
CH3COOH (acetic acid) is considered a monobasic acid because it can donate only one proton (H+) per molecule in a chemical reaction. This means that it has only one hydrogen atom that can dissociate, forming one hydronium ion (H3O+) in solution.
The reaction between hydrogen and oxygen to form water is a synthesis reaction. It is also a combustion reaction since it involves a chemical reaction of a fuel (hydrogen) with an oxidant (oxygen) to produce water and release energy in the form of heat.
HCl and H20 contain coordinate covalent bonds. HCl is formed by sharing of an electron pair between hydrogen and chlorine, while H20 contains two coordinate covalent bonds between oxygen and hydrogen atoms. HFl and H30 do not exist as chemical compounds.
What I can tell you is that H30 is formed when an acid comes into contact with water and all acids have a hydrogen proton ion so when it combines h20 becomes h30 so H30 and OH would be H302 well that's all hoped i helped.
When any carboxylic acid is place in water, hydrogen ion transfer occurs to produce hydronium ion and carboxylate ion. ( R-COOH + H20 = H30 + R-COO- ) So formic acid with the addition of water is HCOOH + H20 = H30 + HCOO-
Concentrated sulfuric acid is typically around 18 M in strength.
in order for an ionic solid to dissolve, the ionic bonds must break through the reaction with water. So yes, what you said is correct. For example a solid NaCl is mixed with water: H20 + NaCl (s) --> Na+ + Cl- + H30+ + OH-
What I can tell you is that H30 is formed when an acid comes into contact with water and all acids have a hydrogen proton ion so when it combines h20 becomes h30 so H30 and OH would be H302 well that's all hoped i helped.
No, it is not.
CH3COOH (acetic acid) is considered a monobasic acid because it can donate only one proton (H+) per molecule in a chemical reaction. This means that it has only one hydrogen atom that can dissociate, forming one hydronium ion (H3O+) in solution.
A pH paper indicator measures the concentration of hydrogen ions in a solution. Salt water does not affect the concentration of hydrogen ions, so the pH paper indicator does not change color in salt water.
Nitric acid: HNO3 (acid) Sodium hydroxide: NaOH (base) This is therefore an acid-base reaction. Acid + Base --> Salt + Water Therefore: HNO3 + NaOH --> NaNO3 + H20 Or: Nitric acid + Sodium hydroxide --> Sodium Nitrate + Water
Depends if you have a Hydroxide [OH^-] or a Hydronium [H3O^+] solution.The Ph of an acid or base is determined by the concentration of the Hydronium [H30^+]. So just find out [H30^+], then use the equation "-log10[H30^+]. Should be between 1-14.7= neutral. lower than 7 = acid. higher than 7= base.If you have a hydroxide to begin with. Ie. NaOH. Then you will have the concentration for the OH, which is = to NaOH. If you get something like Ca(OH)2 then you just multiply your concentration of Ca(OH)2 by 2 to get (concentration)[OH^-].Then use the equation 10^14M/ [OH^-] to find out [H30^+].Once you have the [H30^+] just use the -log10[H30^+]