A neutron star that rotates rapidly and gives off pulse is call a pulsar.
The neutron star emitting radio waves and visible light is likely a pulsar. Pulsars are highly magnetized, rotating neutron stars that emit beams of electromagnetic radiation from their magnetic poles. As the pulsar rotates, these beams sweep across our line of sight, causing periodic flashes of light and radio waves to be observed from Earth.
a pulsar
Magma that reaches the Earth's surface is known as lava.
The molten material that reaches earth's surface is lava :)
Magma that reaches the Earth's surface is known as lava.
Lava cools down and accumulates into rock as it reaches Earth's surface
Magma that reaches earth's surface is called lava.
pulsar
pulsar
It reaches earth as an electromagnetic wave.
No
The energy that reaches the Earth from the sun is known as sunlight.
If you mean in the same volume, only a tiny fraction of Earth - the neutron star is much smaller. The radius of a typical neutron star is perhaps 12 kilometers. In comparison, the Earth has a radius of about 6371 kilometers - that makes Earth's volume about 150 million times greater. (On the other hand, the neutron star has a much greater mass than Earth.)
Magma that reaches the Earth's surface is known as lava.
When a meteor reaches the Earth's surface, it is classified as a meteorite.
No. The closest neutron star is over 434 light years away.
Pulsars pulsate due to their rapid rotation, which causes their beams of electromagnetic radiation to sweep across our line of sight as they spin. This creates a repeating pattern of bright pulses as the beams point towards and away from Earth. It is believed that pulsar beams are generated by strong magnetic fields and the rotation of the neutron star's core.
It is extremely unlikely that a neutron star (or any star or planet) will collide with the Earth, so this is not something that you need to worry about, however, if a neutron star were to collide with the Earth, the Earth would be captured by the intense gravitational field of the neutron star, and would be absorbed by the star. Under sufficient pressure, electrons and protons will merge to form neutrons, and so the atomic matter of which the Earth is composed can be converted into pure neutrons.
it breaks the earth's surface