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When you multiply the speed of light, denoted by "c," by itself in Einstein's equation E = mc², it has a significant effect on the equation and its implications.

The equation E = mc² relates energy (E) to mass (m) and the speed of light (c). By multiplying c by itself, we obtain c² (c squared), which is a large constant value equal to approximately 9 x 10^16 square meters per second squared (m²/s²).

When you apply this squared speed of light to the equation, it implies that even a small amount of mass contains an enormous amount of energy. The equation suggests that mass and energy are interchangeable, and a small amount of mass can be converted into a large amount of energy.

This idea is famously illustrated by the concept of nuclear reactions, such as those that occur in the Sun or in nuclear power plants. In these reactions, a small amount of mass is converted into a significant amount of energy according to the equation E = mc². This process is known as mass-energy equivalence or mass-energy conversion.

It's worth noting that this equation represents the relationship between mass and energy within the framework of special relativity. It doesn't describe all possible forms of energy, but rather the rest energy or the energy equivalent of an object's mass. It highlights the profound connection between mass and energy and is one of the foundational principles of modern physics.

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