Boron hydrides, such as diborane (B2H6), react violently with water to produce hydrogen gas and boric acid. The reaction is exothermic and can be hazardous due to the flammability and toxicity of the products. Extreme caution should be taken when handling boron hydrides around water.
Under normal circumstances boron does not react with water.
Boron tetrahydride or boron hydride Boron tetrahydride or boron hydride
Boron hydride, also known as diborane, is a molecular compound. It consists of covalent bonds formed between boron and hydrogen atoms.
Boron hydrides. The boron hydrides are called boranes with general formula Bn Hn+4 and Bn Hn+6. The well known boron hydrides are: diborane (B2H6), tetraborane (B4H10), pentaborane (B5H9), hexaborane (B6H10), nonaborane (B9H15), and decaborane (B10H16). The boron does not combine with hydrogen to form boron hydrides. They catch fire spontaneously air. All the borones react with ammonia, but in the products depend on the condition :Borone nitrideBorazolefrom:http://www.studentsguide.in
The boron family includes elements such as boron and aluminum that react with oxygen to form oxides. They also react with acids to release hydrogen gas. Additionally, some members of the boron family can react with water to form hydroxides.
Under normal circumstances boron does not react with water.
Boron tetrahydride or boron hydride Boron tetrahydride or boron hydride
Boron hydride, also known as diborane, is a molecular compound. It consists of covalent bonds formed between boron and hydrogen atoms.
Boron hydrides. The boron hydrides are called boranes with general formula Bn Hn+4 and Bn Hn+6. The well known boron hydrides are: diborane (B2H6), tetraborane (B4H10), pentaborane (B5H9), hexaborane (B6H10), nonaborane (B9H15), and decaborane (B10H16). The boron does not combine with hydrogen to form boron hydrides. They catch fire spontaneously air. All the borones react with ammonia, but in the products depend on the condition :Borone nitrideBorazolefrom:http://www.studentsguide.in
The boron family includes elements such as boron and aluminum that react with oxygen to form oxides. They also react with acids to release hydrogen gas. Additionally, some members of the boron family can react with water to form hydroxides.
The boron hydride (also called diborane, B2H6) is not obtained by the direct reaction of hydrogen and boron; other methods are used.
Boron hexahydride
BH is not stable, there is no compound by that formula. BH3 (boron hydride) generally exists as the dimer, B2H6, diborane.
Carborane acid usually refers to pentaborane(9) hydride, which is a strong acid. It is not very soluble in water, but it can react to form hydrochloric acid and boron hydrides. The pH of carborane acid would be very low.
in your question boron reacts to moron. boron cannot react by itself. it needs to react with another chemical.
Boron does not react with water or oxygen but when Boron burns it creates boron trioxide and when Boron burns in air when heated it creates a mixture of Boron trioxide and Boron Nitrate. Boron does not react with Acids or Alkalis and will only react if it is in a highly divided state. Also Boron is oxidised by Nitric Acid to produce Boric Acid and finally Boron reacts with fused Sodium Hydroxide to form Sodium, Borate and Hydrogen. Boron is also used in the bearings of wind turbines and in the nuclear industry for a moderator for neutrons.
Boron oxide reacts with water to form boric acid (H3BO3). This reaction is exothermic and generates heat. Boron oxide is amphoteric, meaning it can react with both acids and bases to form different compounds.