What happens to the energy produced by blocks of Earth’s crust slipping past each other?(1 point)
Responses
It disappears at it moves through the crust.
It increases as it reaches the surface.
It radiates outward in all directions.
It spreads out in random directions.
Well, when blocks of the Earth's crust have a little slip and slide action, the energy they produce doesn't just ghost on us. It doesn't disappear, don't worry. Instead, it decides to have a little party and radiates outward in all directions, like a rockstar spreading the good vibes to the audience. So, you could say it's like throwing a great joke out there and watching it spread to all corners of the room. It's energy's way of saying, "Hey, I'm here and I'm ready to shake things up!"
The correct response is: It radiates outward in all directions.
When blocks of the Earth's crust slip past each other, it creates a phenomenon called an earthquake. During an earthquake, the energy generated by the movement of the crust is released in the form of seismic waves. These waves radiate outward in all directions from the point of the earthquake's origin, also known as the epicenter.
Seismic waves can be divided into two main types: body waves and surface waves. Body waves, consisting of primary (P) waves and secondary (S) waves, travel through the Earth's interior. Surface waves, including Rayleigh waves and Love waves, travel along the Earth's surface.
As these waves propagate, they carry the energy produced by the crustal movement with them. The energy is gradually dissipated as the seismic waves travel through the Earth's layers, interact with different materials, and experience friction and absorption.
Ultimately, the energy from the slipping of Earth's crust spreads out in all directions as seismic waves and gradually dissipates as it travels through the Earth.