Concrete is not a good insulator as it has high thermal conductivity, meaning it can transfer heat easily. This is why concrete is used in buildings to store heat rather than insulate against it.
Concrete is a poor conductor of electricity, so it is considered an insulator. Electricity does not flow easily through concrete due to its high resistance.
Concrete is a poor conductor of electricity, so it can be considered an insulator. However, it may still allow some degree of electrical conduction due to impurities or moisture present in the material.
The reason a concrete floor feels colder than a carpeted floor is because the carpet acts as an insulator to trap heat. The concrete on the other hand will stay cold way longer once it is cold.
A ruler is typically made of plastic, which is an insulator. This means it does not conduct electricity well.
Concrete has higher thermal conductivity than carpet, meaning it can conduct heat away from your body faster, making it feel colder. Carpet acts as an insulator, trapping heat and preventing it from escaping as quickly, resulting in a warmer sensation.
Concrete is a poor conductor of electricity, so it is considered an insulator. Electricity does not flow easily through concrete due to its high resistance.
yes
No, concrete is not a good insulator for buildings and structures. It has high thermal conductivity, meaning it does not effectively prevent the transfer of heat.
Concrete is a poor conductor of electricity, so it can be considered an insulator. However, it may still allow some degree of electrical conduction due to impurities or moisture present in the material.
Ryan longstaf sed yes
Concrete is one of the worst insulators
no i think i am right ( i hope )
cough on someone to give them boomer remover
Concrete is not a good insulator. Concrete has a high thermal mass, which means it can store and release a lot of thermal energy (heat). This property is sometimes mistaken for insulation because it can be used to delay the transmission of thermal energy. The amount of delay is proportional to the thickness of the concrete. An example of this is the use of thick concrete walls to store thermal energy during a hot day and release it during the cooler night. For a delay of this length (half a day) the thickness of the concrete wall needs to be between 150-200mm.
Air has a higher specific heat capacity (at 1.0035 J/(g*K)) than concrete (.880 J/(g*K)).Specific heat capacity is the measure of the heat energy required to increase the temperature of a unit quantity of a substance by unit degree (Wikipedia). Because air requires more joules of energy per gram to raise it one degree Kelvin than concrete does, it is therefore a better insulator.
It is an insulator.
insulator.