Potassium Bromide will conduct electricity only when it is melted or dissolved in water
Potassium bromide can conduct electricity when it is in molten state or when it is dissolved in water. In these cases, the ions in potassium bromide are free to move and carry electrical charge.
Potassium bromide can conduct electricity when it is melted or is dissolved in an ionizing solvent, such as water.
No because it's a crystalline ionic solid. However, dissolve some KBr in water and it will conduct electricity nicely, because in solution it's an electrolyte, with lots of little K+ and Br- ions floating around.
Calcium bromide is an ionic solid, in the solid state it does not conduct electricity. Solutions do conduct, as does the melt.
Potassium Bromide or KBr is not able to conduct electricity in solid state. It is an ionic compound and its ions are not free to move in the solid state, hence they are not able to conduct electricity. But when they are in aqueous state, they are free to move and thus become able to conduct electricity.
Sodium bromide in solid form does not conduct electricity because it consists of ions that are not free to move. However, when dissolved in water, sodium bromide can conduct electricity because it dissociates into sodium and bromide ions, which are free to carry electric charge.
Aluminum bromide is an ionic compound and therefore does not conduct electricity in its solid state because the ions are not free to move. However, when molten or dissolved in water, it can conduct electricity due to the mobility of the ions.
sodium bromide can conduct electricity though not in high quantitiesAdded:So does potassium bromide, as all ionic salts do (more or less) 'in solutae'
Potassium bromide can conduct electricity when it is in molten form or when it is dissolved in water. In these cases, the ions are free to move and carry a charge, allowing for the conduction of electricity.
No because it's a crystalline ionic solid. However, dissolve some KBr in water and it will conduct electricity nicely, because in solution it's an electrolyte, with lots of little K+ and Br- ions floating around.
Calcium bromide is an ionic solid, in the solid state it does not conduct electricity. Solutions do conduct, as does the melt.
Potassium Bromide or KBr is not able to conduct electricity in solid state. It is an ionic compound and its ions are not free to move in the solid state, hence they are not able to conduct electricity. But when they are in aqueous state, they are free to move and thus become able to conduct electricity.
No, solid lead bromide does not conduct electricity because it is an ionic compound with fixed ions that are not free to move and carry electric charge. Only when lead bromide is melted or dissolved in water to form an electrolyte solution, the ions become free to move and conduct electricity.
Sodium bromide in solid form does not conduct electricity because it consists of ions that are not free to move. However, when dissolved in water, sodium bromide can conduct electricity because it dissociates into sodium and bromide ions, which are free to carry electric charge.
Potassium chloride is an ionic solid, the ionic solids can conduct the electricity if they are in molten state or in aqueous solution.
Aluminum bromide is an ionic compound and therefore does not conduct electricity in its solid state because the ions are not free to move. However, when molten or dissolved in water, it can conduct electricity due to the mobility of the ions.
Yes, potassium ions in water contribute to the water's ability to conduct electricity. When potassium dissolves in water, it dissociates into potassium ions (K+) and these ions are mobile and able to carry electric current through the water.
Yes, sodium bromide does conduct electricity in its liquid state because it dissociates into free ions that can carry an electric charge. This is primarily due to the presence of sodium and bromide ions in the liquid, which are responsible for conducting electricity.
Yes, aqueous lead bromide can conduct electricity because it dissociates into lead ions (Pb^2+) and bromide ions (Br^-) in water, allowing for the flow of charged particles.