Detailed information about the equation Zn + 2Na2S2O3 -> ZnS2O3 + 2Na The chemical equation above is a chemical reaction between the metal zinc (Zn) and sodium thiosulfate (Na2S2O3) to produce zinc thiosulfate (ZnS2O3) and sodium (Na). Reaction conditions The reaction requires appropriate temperature and pressure conditions. Specifically, the temperature needs to be high enough … Read more
Definition of Be3H(SO3)2 Be3H(SO3)2 is a chemical molecule consisting of the elements beryllium (Be), Hydrogen (H), and sulfur trioxide (SO3). According to the molecular structure, they form a complex compound with three Be atoms, one H atom, and two SO3 groups. 1.1. Names 1.1.1. Common name: Undetermined 1.1.2. English name: Beryllium Hydrogen Sulfate 1.2. The … Read more
The chemical equation above demonstrates the reaction process between the metal zinc (Zn) and the ceramic metal tin (IV) oxide (SnO2) to produce the compound ZnSnO4. Reaction conditions: This reaction requires high temperatures to occur. It is a reversible reaction, meaning it can proceed in both directions, depending on specific conditions. Reaction process: When heated, … Read more
Definition of Be2B4O7 Be2B4O7, commonly known as Beryllium borate or Beryllium tetraborate in English, is a compound of Beryllium and Boron with Oxygen. The molecular structure consists of two Beryllium (Be) atoms, four Boron (B) atoms, and seven Oxygen (O) atoms. The molecular weight of Be2B4O7 is 159.619 g/mol. Properties of Be2B4O7 Be2B4O7 is a … Read more
Detailed information about the Zn + SnO2 -> ZnSnO3 equation The above chemical equation describes the reaction process between zinc (Zn) and stannic oxide (SnO2) to form ZnSnO3. According to the chemical balance, each mole of zinc reacts with one mole of SnO2 to produce one mole of ZnSnO3. Reaction conditions The specific conditions for … Read more
Definition of Be3Fe(CN)6 Be3Fe(CN)6, also known as Beryllium hexacyanoferrate(II), is a complex compound of Beryllium and Iron. 1.1 Names 1.1.1 Common name: Beryllium hexacyanoferrate(II) 1.1.2 English name: Beryllium hexacyanoferrate(II) 1.2. Atomic composition: It consists of atoms of Beryllium, Iron, and Cyanide. 1.3. Atomic mass: The atomic mass of Beryllium is 9, Iron is 56, and … Read more
Details of the chemical equation: The reaction occurs between the metal zinc (Zn) and ammonium nitrate (NH4NO3) to produce zinc nitrate (Zn(NO3)2) and ammonium nitrite (NH4NO2). In this reaction, Zn reacts with 2 mol NH4NO3 to produce 1 mol Zn(NO3)2 and 2 mol NH4NO2. Reaction conditions: This reaction requires high temperature to occur. In addition, … Read more
Unfortunately, we could not find any information on the substance Be2HPO3 in the current chemical data available.
Detailed information about the equation Zn + 2Ag2S -> ZnS2 + 4Ag: This chemical equation describes the reaction between zinc (Zn) and silver sulfide (Ag2S) to form zinc sulfide (ZnS2) and silver (Ag). Reaction conditions: This reaction occurs when zinc and silver sulfide are placed in the same environment, typically at room temperature. Reaction process: … Read more
Definition of Be2MoO4 Be2MoO4, also known as Beryllium molybdate, is a type of chemical compound with the molecular formula Be2MoO4. It is a white, odorless solid. Be2MoO4 has a total atomic mass of 200.61 g/mol. Its atomic structure consists of 2 Beryllium (Be) atoms, 1 Molybdenum (Mo) atom, and 4 Oxygen (O) atoms. Properties of … Read more