Can you do the same to this one and expand a little on her interest in quantum physics

7. Areas of Exploration \\f | were a scientist exploring electric and magnetic fields, I'd be especially drawn to how they behave at the microscopic scale, particularly in biological and quantum systems. At the nanoscale, electric fields can influence ion channels, nerve signaling, and even protein folding, opening the door to medical innovations such as bioelectric wound healing, targeted therapies, and regenerative medicine. Gaining a deeper understanding of these effects could help scientists design more advanced biomedical devices or develop new ways to guide cellular behavior using tiny electric fields. Another central area of curiosity for me is the long-standing question of magnetic monopoles. Many advanced theories predict their existence, yet none have ever been observed. Discovering even one would dramatically shift our understanding of magnetism by proving that magnetic charge can exist independently, much as electric charge does. I'm also fascinated by the extreme physics of magnetic fields in fusion reactors and neutron stars. In fusion devices such as tokamaks, magnetic fields are used to confine plasma at temperatures hotter than the Sun. A better understanding of these magnetic behaviors could accelerate progress toward practical fusion energy. Beyond fundamental research, improvements in electromagnet technology continue to impact everyday applicationsfrom MRI machines and maglev trains to wireless power transfer. Electric and magnetic fields might seem familiar, but there are still countless open questions that make the field exciting and full of possibilities. References