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Thermal conductivity is an intensive property. It is inherent in the material but not dependent on the amount of material. This should not be confused with the rate of heat conduction which can depend on the dimensions of a material. There is one case where the thermal conductivity might depend on the dimension of the material - when the conductivity is not uniform with direction, i.e. where conductivity laterally is different from conductivity longitudinally. When the orientation of the material changes the conductivity, the dimensions can have an effect on the apparent bulk thermal conductivity.
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The thermal energy of an object depends on three things: 4 the number of molecules in the object 4 the temperature of the object (average molecular motion) 4 the arrangement of the object's molecules (states of matter). The more molecules an object has at a given temperature, the more thermal energy it has!😅hope this helps
No.
Thermal energy is generated by the friction with the air (air resistance), it does not depend on the mass but the surface area of a falling object.
The answer is no
Thermal energy is heat. More heat is more thermal energy.
Mass
Thermal conductivity is an intensive property. It is inherent in the material but not dependent on the amount of material. This should not be confused with the rate of heat conduction which can depend on the dimensions of a material. There is one case where the thermal conductivity might depend on the dimension of the material - when the conductivity is not uniform with direction, i.e. where conductivity laterally is different from conductivity longitudinally. When the orientation of the material changes the conductivity, the dimensions can have an effect on the apparent bulk thermal conductivity.
sex, oral, thermal. <3
Chemical properties are properties that depend on the substances reactions with other substances. Physical properties can be observed without changing the composition of the matter.
What elementary particles do would depend on what type of particle they are. For example, there are antimatter particles, force particles, and matter particles.
External irradiation is not so important; inhalation or ingestion of beta rays emitters can be dangerous.
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it depend on their outer electrons
The safety precautions for handling toxic substances depend on the nature of the particular substances being handled.
Michael Stallings