NASA released the first shot of the interplanetary shock wave of the Sun. NASA’s video exposes particles flying aside from the sun. It probably because of the rapid solar wind flowing through slower streams. It can be seen that the charged particles are emitted from the sun side and then diffused into the solar system. NASA captured the unbelievable footage of its magnetospheric multi-scale mission (MMS). That has been used high-resolution instruments for the past four years to capture images that have never been seen before.
Since 2015, NASA’s MMS (magnetospheric multi-scale mission) includes four spacecraft that have been orbiting Earth, passing through the magnetosphere of our planet to study a phenomenon named as magnetic reconnection. MMS is fortunate to be shocked in the event of an impact because the four craft are needed to close to be accurately detected, and the vibration is pulled through the spacecraft in just half a second. NASA revealed: “Interplanetary impact is a collision-free impact – the impact of particles passing energy through electromagnetic fields rather than directly colliding with each other. “These collision-free impacts are a phenomenon found everywhere in the world, together with black holes, supernovae as well as distant stars. “Magnetospheric multi-scale mission studies the collision-free impact across the Earth to better understand the impact in the universe.”
On January 8, 2018. The interplanetary shocks were captured by NASA’s MMS. According to NASA,” When a fast solar wind exceeds a slower stream, a shock wave is generated, like a ship passing through a river that produces waves.” This shock wave scatters from the sun and into the solar system. When it hits the magnetic field of Earth, it starts to create a magnetic reconnection effect. NASA added: “MMS can only see interplanetary shocks once a week due to the timing of the orbits and instruments. NASA continued: “MMS can only see interplanetary shocks once a week due to the timing of the orbits and instruments. Scientists have now observed strong vibrations, and they believe that they will find weaker shocks in the future.