it gets all broken like mine
Yes. 'Warm' increases the elasticity. Cold decreases the elasticity. Extreme cold can make the substances brittle and not bounce at all.
A frozen bouncy ball will bounce lower than an unfrozen one because the cold temperature reduces the ball's elasticity and flexibility. This results in less energy being absorbed and released during impact, leading to a lower bounce height.
A golf ball is cold and hard while a tennis ball is "warm and fuzzy" :O)
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The air molecules inside the ball will contract and lose energy, causing the ball to deflate as the pressure decreases. The rubber material of the ball may also become more rigid and less elastic in the cold temperatures.
i dont know much about density of air but i do know this, if hot air is in a basketball in the cold, it should be easier to score as the ball would physically rise if the air is too hot, but pressure would pop the ball first, so that stops it floating away, but yeah, hot air in a ball, on a cold day means the ball will bounce higher, and be easier to shoot, as less power is needed for the same shot, as on a hot day
probably would have ice crystals on the ball, and be very cold.
Cold temperature causes the air within a ball to contract, leading to a decrease in air pressure. This reduction in pressure can make the ball feel less inflated and less bouncy. It is important to monitor and adjust the air pressure in balls when exposed to cold temperatures to maintain optimal performance.
Freezing a bouncy ball can cause it to become more rigid and lose its bounce. The cold temperature can affect the elasticity of the material, making it less flexible and prone to cracking or breaking when bounced.
it moist inside the plastic
I'm not too sure about the answer myself, but I'll take a crack at it. My understanding is that temperature increases the kinetic energy of air particles (molecules) in the ball (e.g. on a hot day a balloon expands. Likewise, on a cold winter day, the balloon tends to shrink a lot quicker). When "excited" (through increase in temperature), particles tend to speed up, and bounces against the inner wall of the ball. This results in an overall increase in pressure inside the ball, which thus results in a higher bounce (e.g. a soccer ball pumped fully bounces higher than a partially deflated soccer ball).
Well what if it is really cold outside and hot inside what will happen then, did you think of that? hot and cold it only your opinion because it think 10000 degrees is cold and -1383 degrees is hot