1.2676g/ml
Copper (II) Bromide
Hydrogen bromide is an electrophile because the bromine atom is electronegative and attracts electron density towards itself, creating a partially positive charge on the hydrogen atom. This makes the hydrogen atom electron deficient and thus capable of accepting an electron pair from a nucleophile.
Cadmium Bromide
Copper (I) bromide. Unlike with a zinc compound question I just answered, the (I) here is pretty important; both copper (I) bromide and copper (II) bromide exist and are commercially available.
Methyl bromide cannot be directly converted into ethyl bromide. However, methyl bromide can be converted into ethyl bromide through a substitution reaction by reacting it with ethyl alcohol in the presence of a strong base, such as sodium hydroxide, to form ethyl bromide.
The molar volume of a gas at STP is 22.4 liters/mol. The molar mass of hydrogen bromide is 80.9 g/mol. Therefore, the density of hydrogen bromide at STP is 80.9 g/mol / 22.4 L/mol = 3.61 g/L.
The name of the compound SnBr is tin (II) bromide.
Lithium Bromine
Copper (II) Bromide
The CsCl forms a gradient and the molecules migrate according to their density until they float at their individual isopycnic points (the point in the gradient that equals the buoyant density of the molecule). However, plasmid DNA and contaminating chromosome have about the same density and cannot be separated easily. This is rectified, however, by the addition of ethidium bromide. Density is a function of AT/GC ratio, but it is also a function of conformation. For supercoiled DNA, there is more DNA per unit volume than for relaxed DNA. Intercalation of ethidium bromide into DNA causes the helix to unwind (negative supercoiling) and become more relaxed. However, negative supercoiling only relaxes the DNA to a point. Further unwinding induces supercoiling in the opposite direction. When the DNA is circular and the ends are connected, the plasmid "kinks up" into a very tight knot. Thus, ethidium bromide causes the plasmid density to be increased.
Hydrogen bromide is an electrophile because the bromine atom is electronegative and attracts electron density towards itself, creating a partially positive charge on the hydrogen atom. This makes the hydrogen atom electron deficient and thus capable of accepting an electron pair from a nucleophile.
HgBr2 is mercury II bromide or mercuric bromide.
magnesium bromide hexahydrate
Cadmium Bromide
Copper (I) bromide. Unlike with a zinc compound question I just answered, the (I) here is pretty important; both copper (I) bromide and copper (II) bromide exist and are commercially available.
Methyl bromide cannot be directly converted into ethyl bromide. However, methyl bromide can be converted into ethyl bromide through a substitution reaction by reacting it with ethyl alcohol in the presence of a strong base, such as sodium hydroxide, to form ethyl bromide.
The common name of sodium bromide is simply bromide.