Everything can withstand a temperature of absolute zero, minus 273 degrees celsius, but the materials wont be able to maintain structure or composition of molecules. It will be completely "frozen". Even the electrons won't move. That said, your rubber would still be rubber, but completely frozen. It will probably not be the same rubber as we are used to.
It might react to the drastic changes of temperature in several ways of which I don't know. Perhaps expand, contract, explode, implode etc. It will also depend on how you lower the temperature.
When rubber is cooled to absolute zero, it will become extremely brittle and may fracture easily when subjected to stress. This is because rubber transitions from a flexible state to a rigid state at low temperatures, losing its ability to deform without breaking.
Yes, temperature can affect the elasticity of a rubber band. Cold temperatures tend to make rubber bands more brittle and less stretchy, while hot temperatures can make them softer and more elastic. Extreme temperatures can even cause a rubber band to break more easily.
Yes, the stretchiness of a rubber band is affected by temperature. When exposed to higher temperatures, rubber bands become more stretchy and flexible, while colder temperatures can cause the rubber to become stiffer and less stretchy.
Yes, temperature can affect a rubber ball. Rubber becomes more flexible and bouncy at higher temperatures but can become brittle at very low temperatures. Extreme temperature changes can also cause the rubber to degrade over time.
Rubber material can be destroyed by exposure to extreme temperatures, sunlight, chemicals, and oils.
Cold temperatures can cause rubber bands to become stiffer and less elastic, as the molecules in the rubber contract and have less energy to move around. This can make the rubber band more brittle and prone to breakage when stretched. Warm temperatures, on the other hand, help the rubber band regain its elasticity.
Charles Goodyear is credited with inventing vulcanized rubber in 1839, which made rubber more durable and resistant to temperature changes. This discovery revolutionized the rubber industry by providing a practical solution to the problem of rubber melting in hot temperatures and freezing in cold temperatures.
yes, a rubber chicken has
Rubber bands typically do not stretch as easily in cold temperatures. Cold can cause the rubber to become less flexible and more rigid, reducing its ability to stretch. In contrast, warmer temperatures allow the rubber to expand and become more pliable, making it easier to stretch. Therefore, rubber bands generally perform better when it's warm.
Yes, temperature can affect the strength of rubber bands. Rubber bands become stiffer and less flexible at lower temperatures, which can decrease their strength. On the other hand, higher temperatures can cause rubber bands to become softer and more prone to breaking under tension.
YES!!!! . If it is rubber car tyres, then the smell is very acrid/horrible.
Rubber becomes softer and more elastic at higher temperatures, making it prone to deform under pressure. Conversely, at lower temperatures, rubber becomes harder and more brittle, which can lead to cracking or breaking upon impact. Extreme temperature fluctuations can degrade the chemical structure of rubber, reducing its flexibility and lifespan.