When the copper ball is heated, it will initially absorb the heat and begin to increase in temperature. As the temperature of the copper ball rises, the particles within the ball will gain energy and start to vibrate more rapidly. This increased vibration will cause the particles to spread out and the copper ball will start to expand in size.
As the copper ball continues to heat up, it will eventually reach its melting point, which is around 1,984 degrees Fahrenheit (1,085 degrees Celsius). At this point, the solid copper ball will transition into a liquid state. The copper atoms will lose their fixed positions in the solid lattice structure and become more disordered in the liquid form.
Overall, heating the copper ball will cause it to expand in size, change from a solid to a liquid state, and exhibit increased molecular movement.
What happens to the copper ball during heating
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