Use the image of the electromagnetic spectrum to answer the question. Lightning contains gamma rays. Based on the position of gamma rays in the electromagnetic spectrum, does lightning have more or less energy than a radio? (1 point) Responses Lightning has less energy than the radio because gamma rays have a longer wavelength. Lightning has less energy than the radio because gamma rays have a longer wavelength. Lightning has less energy than the radio because gamma rays have a shorter wavelength. Lightning has less energy than the radio because gamma rays have a shorter wavelength. Lightning has more energy than the radio because gamma rays have a longer wavelength. Lightning has more energy than the radio because gamma rays have a longer wavelength. Lightning has more energy than the radio because gamma rays have a shorter wavelength.
Lightning has more energy than the radio because gamma rays have a shorter wavelength.
Energy in Waves Quick Check 5 of 55 of 5 Items Question Waves have energy that causes particles in matter to vibrate. So, it stands to reason that(1 point) Responses the higher the energy, the slower the particles vibrate (which means a lower frequency). the higher the energy, the slower the particles vibrate (which means a lower frequency). the lower the energy, the slower the particles vibrate (which means a higher frequency). the lower the energy, the slower the particles vibrate (which means a higher frequency). the lower the energy, the faster the particles vibrate (which means a lower frequency). the lower the energy, the faster the particles vibrate (which means a lower frequency). the higher the energy, the faster the particles vibrate (which means a higher frequency).
the higher the energy, the faster the particles vibrate (which means a higher frequency).
