...........H..H.H
...........|...|..|
H-C=C-C-C-C-H
....|...|..|...|..|
....H..H..H..H.H
thats 1-pentene when you add Br2 to that it, it adds across the C to C double bond.
...Br..BrH.H.H
....|...|..|...|..|
H-C-C-C-C-C-H
....|...|..|...|..|
....H..H..H..H.H
this is an example of an addition reaction
No, the reaction Br2 + NaCl → NaBr + Cl2 does not occur. The correct reaction between Br2 and NaCl is 2NaBr + Cl2.
I think this is right... Cl2 + 2NaBr = 2NaCl + Br2
Bromine is diatomic, so 2 atoms make up Bromine as a reactant. Mg + Br2 ----> MgBr2
2NaBr (s) + Cl2 (g) --------> 2NaCl (s) + Br2 (g)
Bromine (Br2) will be soluble in carbon tetrachloride (CCl4) because both are nonpolar. Sodium nitrate (NaNO3) will be soluble in water (H2O) due to its ionic nature and the ability to form hydrogen bonds with water molecules; it will not dissolve in a nonpolar solvent like CCl4. Hydrochloric acid (HCl) is soluble in water and will dissociate into ions, making it insoluble in a nonpolar solvent like CCl4.
The most correct product formed from the reaction of LiBr + Cl2 is LiCl + Br2. This is because lithium chloride (LiCl) and bromine (Br2) are the expected products when lithium bromide (LiBr) reacts with chlorine (Cl2) in a single displacement reaction.
The product of the following reaction Cs Br2 is CsBr.
The balanced equation for the reaction between zinc (Zn) and bromine (Br2) is: Zn + Br2 -> ZnBr2.
No, the reaction Br2 + NaCl → NaBr + Cl2 does not occur. The correct reaction between Br2 and NaCl is 2NaBr + Cl2.
2 K + Br2 -> 2 Kbr
The balanced chemical equation for H2 plus Br2 produces 2 HBr.
The chemical equation for the reaction between hydrochloric acid (HCl) and lithium hydroxide (LiOH) is: HCl + LiOH -> LiCl + H2O This reaction produces lithium chloride (LiCl) as a salt and water (H2O) as a product.
Ca + Br2 = CaBr2 doesn't need to be balanced.
Its already balanced.
The balanced equation is: 2MgBr2 + Cl2 → 2MgCl2 + Br2
The compound with the highest melting point among HCl, HBr, H2O, and Br2 is H2O (water). Water has a high melting point due to its strong hydrogen bonding, which requires a significant amount of energy to break apart the bonds between water molecules.
HCL has a higher boiling point compared to HBr This is due to difference in electronegativity. H - 2.1 Cl - 3.0 Br - 2.8 The difference for HCl is 0.9, the difference for HBr is 0.7. The larger the difference in electronegavity means the stronger the bond. Large difference means greater attraction hence more energy is needed to overcome this bond.