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According to http://www.koolance.com/technical/cooling101/002.html the specific heat is 1.6 kJ/kgK According to my small pocket technical guide "Gieck Technical Formula's" it's 1.42 kJ/kgK
When rubber bands are stretched to their maximum capacity, the polymer chains within the rubber band are pulled apart and elongated. This causes the rubber band to store potential energy, which is released when the rubber band is released, causing it to snap back to its original shape.
specific heat capacity
No, rubber has a relatively low heat capacity compared to other materials. It does not easily absorb and store heat energy, and it also has a low thermal conductivity. As a result, rubber does not retain heat well and is not an ideal material for applications that require high heat capacity.
Rubber bands typically stretch more before breaking compared to string, so they can hold more weight. However, the exact weight capacity depends on the specific type and thickness of the rubber band and string being used.
The specific heat capacity of polyester is 2.35degrees
No. Metals have a relatively low specific heat.
No, aluminum has a lower specific heat capacity than iron. The specific heat capacity of aluminum is about 0.90 J/g°C, while iron has a specific heat capacity of about 0.45 J/g°C.
The specific heat capacity of tar is approximately 2 J/g°C.
What is the specific heat capacity of kno3
A calorimeter is commonly used to calculate specific heat capacity. This device measures the heat transfer in a system when a material undergoes a temperature change, allowing for the determination of specific heat capacity.
The specific heat capacity of phosphorus is approximately 0.187 J/g°C.