The radioactive element radium is a pretty good conductor of thermal and electrical energy. We see radium at the bottom of the Group 2 elements, the Alkaline Earth Metals. It can conduct heat and electricity well.
Refer to the periodic table of elements and check if radon is a metal or not. If it is a metal then it will be good conductor of heat and electricity. If it is a gas it will not be good conductor of heat and electricity
No, there are no valence electrons to move around.
The thermal conductivity of radon is 0.00361 W/(m K)
yes AS IT is a metal but why use i cant think
A metal. It's a better conductor than liquid, gas, or rubber.
Radon is a poor conductor of heat because it is a noble gas with low thermal conductivity. This means it does not transfer heat efficiently compared to other substances.
Refer to the periodic table of elements and check if radon is a metal or not. If it is a metal then it will be good conductor of heat and electricity. If it is a gas it will not be good conductor of heat and electricity
No, chlorine is not a conductor of electricity. It is a non-metal that is a poor conductor of electricity.
It is not a heat conductor.
because it is a heat conductor!
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.
Aluminium is a good conductor of heat.
Wood is a poor conductor of heat.
The element that fits this description is silver. Silver is part of Group 11 and is known for its shiny appearance, malleability, and excellent conductivity of heat and electricity. It has an atomic number higher than cesium and lower than radon.
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.
No, there are no valence electrons to move around.
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.