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 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).
the lower the energy, the slower the particles vibrate (which means a higher 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).
The correct answer is:
the higher the energy, the faster the particles vibrate (which means a higher frequency).
To understand why, let's break it down.
The energy of a wave is directly related to its frequency. Frequency is the number of complete cycles or vibrations that a wave completes in a given time. In the case of particles vibrating in matter, the frequency of the wave is directly related to how fast the particles are vibrating.
When the energy of a wave increases, it means that more energy is being transferred to the particles. As a result, the particles vibrate faster and complete more cycles in a given time, leading to a higher frequency.
On the other hand, when the energy of a wave decreases, there is less energy available to transfer to the particles. This causes the particles to vibrate slower and complete fewer cycles in a given time, resulting in a lower frequency.
So, the general relationship is that the higher the energy of a wave, the faster the particles vibrate, leading to a higher frequency.