That depends on the material from which the ball is made, if this material is elastic then no.
When an iron ball is heated, it expands due to an increase in its temperature. The expansion occurs in all three dimensions: length, width, and height. The expansion is a result of the increased kinetic energy of the iron atoms vibrating more rapidly, causing them to move further apart.
If the ball and the ring are heated too much, they may expand due to thermal expansion. This could cause the ring to become loose around the ball or even deform the shape of the ball. Extreme heat could also potentially damage the materials of the ball and the ring, leading to structural integrity issues.
thermal expansion
When a ball is heated, it expands due to the increase in kinetic energy of its particles. As a result, its diameter becomes larger, making it too big to pass through a ring of a fixed size. This phenomenon illustrates the principles of thermal expansion, where materials expand when their temperature rises. Consequently, the heated ball cannot fit through the ring.
The increase in volume of a material when heated is called thermal expansion.
A common apparatus used in labs to show the expansion of solids on heating is a simple demonstration setup consisting of a metal ball and ring. The ball passes easily through the ring at room temperature, but when heated, it expands and no longer fits through the ring, illustrating the concept of thermal expansion.
When a metal ball is heated, its volume increases due to thermal expansion. As the temperature rises, the metal's atoms vibrate more vigorously and tend to occupy more space, causing the ball to expand. This increase in volume occurs uniformly, affecting the entire structure of the ball. However, the mass of the metal remains unchanged during this process.
It doesn't react. it is so unreactive that all it will do is eventually melt if you heat it high enough.
Linear expansion and volumetric expansion are the two types of thermal expansion. Linear expansion is the increase in length of a material when heated, while volumetric expansion refers to the increase in volume of a material when heated.
thermal expansion
when the ball is heated, it will pass through the unheated ring.
yes, when it is heated.