strength of electrical field within PM is _ proportional to number of charges being separated
directly
The strength of the electrical field within a polarized material (PM) is directly proportional to the number of charges being separated. This is because within a polarized material, the electric charges are not uniformly distributed; they are separated into positive and negative charges, creating a dipole moment. As the number of separated charges increases, the dipole moment increases, resulting in a stronger electric field within the PM. This is the reason why polarized materials, such as ferroelectric substances, are utilized in various applications, including capacitors, memory devices, and sensors. The stronger electric field inside these materials makes them highly conductive and reactive to external electrical fields. Hence, the intensity of the electric field is a crucial factor when it comes to the functioning of polarized materials and their applications in electronic devices.
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