Yes, it does.
Potassium does indeed react vigorously with acid and also conducts heat well.
Yes, calcium is a good conductor of heat and electricity. Most metals are good conductors of heat and electricity. Most nonmetals are not good conductors of heat and electricity.
yes copper is a good conductor of heat only becuase it comes in the conductor of heat
yes it is good conductor of elasticity because it is a metal.
Yes, potassium chloride can conduct electricity when dissolved in water. In its solid form, potassium chloride is an insulator, but when it dissolves in water, it forms ions that can carry an electric current. This is why solutions of potassium chloride are commonly used in electrochemical cells and experiments involving conductivity.
No, potassium is not a good thermal conductor compared to other materials. It has a relatively low thermal conductivity, meaning it is not efficient at transferring heat.
Yes.
Potassium does indeed react vigorously with acid and also conducts heat well.
Duct tape is not a good conductor of heat. Its composition and thickness make it a poor conductor, so it does not readily transfer heat.
No, a pencil is not a good conductor of heat because it is made of graphite, which is a poor conductor of heat. Heat will not travel easily through a pencil, making it a good insulator rather than a conductor of heat.
Yes it is but it is not good for electricity!!
Phosphate is not a good conductor of heat. It is actually a poor conductor of heat due to its molecular structure, which hinders the transfer of heat energy. This property makes phosphate a good insulator rather than a conductor of heat.
No, milk is not a good conductor.
Aluminium is a good conductor of heat.
Copper and aluminum. Most heat sinks are made of Aluminum (cheap and a good conductor of heat).
Yes, calcium is a good conductor of heat and electricity. Most metals are good conductors of heat and electricity. Most nonmetals are not good conductors of heat and electricity.
If something is a good conductor of heat, it will lose heat faster than a poor conductor. This is because a good conductor allows heat to flow through it quickly, dispersing the heat energy more rapidly.