Yes, every particle with an electric charge possesses magnetic properties to some extent. This is because moving charges generate a magnetic field. According to classical electromagnetism, the magnetic field produced by a moving charge is described by Ampere's law.
In quantum mechanics, particles such as electrons, protons, and other charged elementary particles possess an intrinsic property known as spin. Spin is a fundamental characteristic of particles that can be thought of as an intrinsic form of angular momentum. Spin is closely related to magnetism.
The magnetic properties of a particle, including its magnetic moment, are determined by its spin and charge. The magnetic moment is a measure of the strength and orientation of the magnetic field associated with a particle. The magnetic moment is proportional to the product of the particle's spin and its charge.
For example, electrons, which have a charge and a spin of 1/2, possess a non-zero magnetic moment. This magnetic moment gives rise to their interaction with external magnetic fields and their ability to respond to magnetic forces.
However, it's important to note that the strength of the magnetic moment and the magnetic properties of particles can vary significantly. Some particles, like the electron, have relatively large magnetic moments, while others, like the neutrino, have extremely small or negligible magnetic moments. The details of the magnetic properties of particles depend on their specific characteristics and the fundamental interactions they participate in.
In summary, while not all particles have the same magnetic properties, particles with electric charge and non-zero spin do possess magnetic properties due to their motion and intrinsic angular momentum.