Some possible applications of magnetic resonance wireless charging include:
- Consumer electronics: Charging smartphones, tablets, laptops, and other small devices.
- Wearable devices: Smartwatches and fitness trackers.
- Home appliances: Cordless lamps, small electric appliances.
- Industrial applications: Wireless charging of tools and equipment in factories.
- Automotive industry: Wireless charging in electric vehicles.
Regarding the relationship between voltage, resistance, and current, according to Ohm's law, current (I) is equal to voltage (V) divided by resistance (R), that is, I = V / R. So, when voltage increases while resistance remains constant, current will increase. Conversely, if resistance increases while voltage is constant, current will decrease. Resistance can be affected by factors such as the type and length of the conductor. Changes in voltage and resistance can thus have a significant impact on the magnitude and direction of current flow.