The compound is Bromine chloride
The formula for bromine monochloride is BrCl. It is a reddish-brown liquid at room temperature and is a chemical compound of bromine and chlorine.
The formula for monohydrogen monobromide is simply HBr. Remember that the prefix mono means one. This substance is more commonly known as hydrobromic acid.
HCl displays the least ionic character among the given compounds. This is because HCl is a covalent bond between nonmetals, resulting in a sharing of electrons rather than a transfer. NaCl, OCl, and BrCl are all ionic bonds between a metal and a nonmetal, leading to a complete transfer of electrons and a higher degree of ionic character.
The most polar bonds would be found in SCl2 and BrCl since S and Br are more electronegative than the other atoms in the molecules (Cl). This difference in electronegativity leads to unequal sharing of electrons, creating more polar bonds.
CaCO3 (calcium carbonate) is most likely to occur as a solid at room temperature.
To find the mass of BrCl formed, you first need to determine the limiting reactant by comparing the mole ratios of Cl2 and Br2 in the balanced equation. Once you know the limiting reactant, you can use stoichiometry to calculate the moles of BrCl formed. Finally, convert the moles of BrCl to grams using the molar mass of BrCl.
The formula for bromine monochloride is BrCl. It is a reddish-brown liquid at room temperature and is a chemical compound of bromine and chlorine.
Bromine monochloride, BrCl
The formula for bromine tetrachloride is BrCl₄.
BrCl is a covalent compound because it is formed between two nonmetals (bromine and chlorine) that share electrons to achieve a stable electron configuration.
The formula for monohydrogen monobromide is simply HBr. Remember that the prefix mono means one. This substance is more commonly known as hydrobromic acid.
Bromine Pentachloride is the name of BrCI5.
HCl displays the least ionic character among the given compounds. This is because HCl is a covalent bond between nonmetals, resulting in a sharing of electrons rather than a transfer. NaCl, OCl, and BrCl are all ionic bonds between a metal and a nonmetal, leading to a complete transfer of electrons and a higher degree of ionic character.
While Im not particularly sure that reaction even happens, I guess one could figure it out none the less. If you have 2.74 mol of Cl2 you would expect to get 5.48 mol of BrCl. Because each Cl2 can make 2 BrCl so double the number of moles. Br has a molecular weight of 79.90 and Cl of 35.45 so together that's 115.35 Grams/mol. Since you have 5.48 mol all you have to do is multiply the two numbers together and cancel out the "mol" units to get 631.12 grams of BrCl... again which makes this reaction seem completely unrealistic.... what good is that much BrCl. --------------------------------------------------------------------------------------------------- Well, silly you need to balance it first and provide the equation~ So you probably have: Br2+Cl2=2BrCl correct? So you have 2.74mol Cl2, you need to find ___molBrCl 2.74molCl2 X (2molBrCl/1molCl2) = 5.48molBrCl
Yes, they form BrCl and BrCl3 . such compounds have covalent bonds and known as Interhalogens.
What is 'brcl'???? If you mean 'BrCl'. then it is a COVALENTLY Bonded molecule. NB You misunderstand between ionic and molecule. All chemicals are MOLECULES. However, the bonding within given chemicals can be either IONIC or COVALENT. An ionically bonded molecule is common table salt , sodium chloride (NaCl). It is formed by the ions Na^(+) and Cl^(-) bonding under electrostatic attraction.(like the N & S poles of a magnet). A covalently bonded molecule is water (H2O). It is formed by the oxygen atom sharing its electrons with hydrogen atoms ; (like linking arms).
The most polar bonds would be found in SCl2 and BrCl since S and Br are more electronegative than the other atoms in the molecules (Cl). This difference in electronegativity leads to unequal sharing of electrons, creating more polar bonds.