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what happens when polar molecules are between oppositely charged metal plates

When polar molecules are between oppositely charged metal plates, there can be several interesting and unexpected phenomena that occur.


what happens when polar molecules are between oppositely charged metal plates

(what happens when polar molecules are between oppositely charged metal plates)

One of the most noticeable effects is the electric field generated by the presence of polar molecules in the region. This electric field creates an electric field that flows through the metal plate, which in turn affects the movement of the polar molecules.
The electric field generated by the polar molecules can cause them to move away from each other, or even repel them. This is because the electric field causes the polar molecules to gain kinetic energy and move towards opposite charges. At the same time, the electric field also tends to align the polar molecules towards each other, creating a force that holds them together.
Another effect that can occur when polar molecules are between oppositely charged metal plates is the flow of ions across the metal surface. This flow of ions can affect the electrical conductivity of the metal plate, which in turn can impact its performance as a electrical conductor.
For example, if the polar molecules are strongly aligned towards each other, they may interact with the electric field generated by the polar molecules and cause the electrons in the metal plate to move more quickly, leading to increased electrical conductivity. On the other hand, if the polar molecules are strongly perpendicular to each other, they may interact with the electric field generated by the polar molecules and cause the electrons in the metal plate to move less quickly, resulting in decreased electrical conductivity.


what happens when polar molecules are between oppositely charged metal plates

(what happens when polar molecules are between oppositely charged metal plates)

Overall, the interaction between polar molecules and opposite charged metal plates can have significant effects on their behavior and performance. Understanding these effects is important for many applications, including chemical reactions, electrochemical systems, and electronic devices.

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