p4o10 + 6h2o -----> 4h3po4
The reaction between sodium iodide and phosphoric acid forms sodium dihydrogen phosphate, hydrogen iodide gas, and water. It is a double displacement reaction where the ions in the reactants swap partners to form the products. This reaction is commonly used in the synthesis of certain organic compounds.
Sodium dihydrogen phosphate is an 'acid' because it is able to produce hydrogen ions when dissolved in water. It is also a 'salt' as it is an ionic compound and is formed when a hydrogen atom of the phosphoric acid is replaced by a metal ion (Na+).
Na3PO4+H2O->NaOH+H3PO4 just balance it.
Sodium phosphate is a generic term for the salts of sodium hydroxide and phosphoric acid (soluble in water). They are:sodium dihydrogen phosphate, commonly termed monosodium phosphate, (NaH2PO4), is also known as "sodium phosphate, monobasic".disodium hydrogen phosphate, commonly termed disodium phosphate, (Na2HPO4) is also known as "sodium phosphate, dibasic".Trisodium phosphate, commonly shortened to just sodium phosphate, (Na3PO4), is also known as "sodium phosphate, tribasic".sodium aluminium phosphate, (Na8Al2(OH)2(PO4)4).
When sodium hydroxide is mixed with phosphoric acid, a neutralization reaction occurs, resulting in the formation of sodium phosphate and water. The reaction can be written as: 3 NaOH + H3PO4 → Na3PO4 + 3 H2O
The chemical equation is:3 NaOH + H3PO4 = Na3PO4 + 3 H2O
Sodium hydrogen phosphate is a base because it can accept a proton (H+) from water to form the conjugate acid (dihydrogen phosphate ion) and hydroxide ion (OH-). This reaction increases the concentration of hydroxide ions in solution, leading to an increase in pH, making it alkaline/basic.
The reaction between sodium iodide and phosphoric acid forms sodium dihydrogen phosphate, hydrogen iodide gas, and water. It is a double displacement reaction where the ions in the reactants swap partners to form the products. This reaction is commonly used in the synthesis of certain organic compounds.
Sodium dihydrogen phosphate is an 'acid' because it is able to produce hydrogen ions when dissolved in water. It is also a 'salt' as it is an ionic compound and is formed when a hydrogen atom of the phosphoric acid is replaced by a metal ion (Na+).
Sodium vigorously reacts with water, producing hydrogen gas and sodium hydroxide. The reaction is highly exothermic and can even ignite the hydrogen gas produced.
When sodium metal reacts with water, it forms sodium hydroxide and hydrogen gas. The reaction is highly exothermic and can produce a vigorous release of heat and hydrogen gas. Additionally, the reaction of sodium with water can be violent and should be conducted with caution.
The reaction between sodium phosphate and barium chlorate in water would be a double displacement reaction, forming insoluble barium phosphate and soluble sodium chlorate as products. The balanced chemical equation for the reaction is: 3Na3PO4 + 2Ba(ClO3)2 → Ba3(PO4)2 + 6NaClO3
K2HPO4 + NaHCO3 --> K2NaPO4 + H2O + CO2 is the balanced equation for the reaction of dipotassium hydrogen phosphate and sodium bicarbonate. (All numbers should be subscripts). Dipotassium phosphate does not exist. Tripotassium phosphate, K3PO4 does, but it's not acidic and therefore does not react with sodium hydrogen carbonate (sodium bicarbonate).
After the violent reaction of sodium with water hydrogen is released.
When sodium reacts with water, it releases hydrogen gas which is highly flammable. The reaction is exothermic, meaning it produces heat that can ignite the hydrogen gas, leading to a fire. The high reactivity of sodium with water results in a vigorous reaction that can be dangerous if not properly controlled.
The product of titration between hydrogen phosphate and potassium hydroxide would be potassium phosphate and water. The reaction involves the exchange of ions, with the hydrogen phosphate ion reacting with the potassium hydroxide to form potassium phosphate and water as the products.
When sodium is mixed with water, a chemical reaction takes place and new compounds are formed, namely sodium hydroxide and hydrogen gas. Sodium hydroxide is highly corrosive and hydrogen gas is extremely flammable. The chemical equation for such a reaction is as follows: Na + H2O -> NaOH + H