Solar cells handle electromagnetic radiation by converting it into electrical energy. When sunlight (which is a form of electromagnetic radiation) strikes the solar cell, it excites electrons, allowing them to flow through the material, creating an electric current. The materials used in solar cells are designed to efficiently absorb and convert a wide range of electromagnetic radiation, including visible light and some parts of the infrared and ultraviolet spectrum.
Solar cells are designed to handle electromagnetic radiation by converting it into usable electrical energy. The materials within the solar cells absorb photons from the sunlight, which in turn generates an electric current. This process effectively harnesses the energy from the electromagnetic radiation and allows solar cells to produce clean and renewable electricity.
Solar cells are designed to efficiently convert electromagnetic radiation, particularly sunlight, into electricity. When electromagnetic radiation, such as sunlight, hits the solar cell, it excites the electrons within the cell's semiconductor material. This excitation creates an electric current, which can be harnessed as electrical energy. Therefore, solar cells are specifically designed to handle and utilize electromagnetic radiation to generate electricity.