It will soften, melt and burn
Rubber is a excellent insulator of heat. The amount of hydrogen it is giving to keep track of heat. though if you are doing a science fair project, the amount of heat is excelled by the power of rubber
No, rubber does not show the Tyndall effect. The Tyndall effect is the scattering of light by colloidal particles or particles suspended in a transparent medium, which causes the light to be visible as a beam. Rubber does not have the scattering properties required to exhibit this effect.
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
It depends on the specific chemicals used. Some chemicals may cause rubber to break down, become brittle, or lose its elasticity. Other chemicals may have no effect on rubber. It is important to consult the chemical compatibility of the specific substances before applying them to rubber to avoid damage.
To treat rubber with sulphur and heat thus providing greater strength and elasticity
Heating a rubber band causes the polymer chains to move more freely, reducing the elastic properties of the rubber band. This leads to a decrease in its elasticity, making it stretch more easily.
No, rubber is not a good conductor of heat. It is a poor conductor of heat because it is a good insulator, meaning it does not allow heat to pass through it easily. This property makes rubber useful for applications where heat insulation is required.
Exposure to heat can cause a rubber band to lose its elasticity and become brittle. The heat breaks down the molecular structure of the rubber, leading to a loss of flexibility and strength in the rubber band. Over time, this can cause the rubber band to crack or snap more easily.
When heat is added to a rubber band, the rubber band will expand and become more flexible. This is because the heat causes the rubber molecules to move around more freely, allowing the rubber band to stretch more easily.
which of these is the best conductor of heat? rubber , stainless steel , plastic , cloth
On heating rubber contracts instead of expanding
Rubber is a excellent insulator of heat. The amount of hydrogen it is giving to keep track of heat. though if you are doing a science fair project, the amount of heat is excelled by the power of rubber
No, rubber does not show the Tyndall effect. The Tyndall effect is the scattering of light by colloidal particles or particles suspended in a transparent medium, which causes the light to be visible as a beam. Rubber does not have the scattering properties required to exhibit this effect.
It is possible to heat anything.
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 can not only keep heat OUT, it can also keep heat IN. It only depends on which side of it is initially at higher temperature. This property of rubber is the main reason that it is often used as a thermal insulator.
Yes, temperature can affect the strength of a rubber band. Extreme cold temperatures can make rubber bands more brittle and prone to breaking, while extreme heat can cause them to soften and lose elasticity. It is important to store rubber bands in a moderate temperature to maintain their strength and flexibility.