A pulsar
Neutron stars are able to produce pulses of radiation because they are rotating, and only a certain place on the neutron star releases the radiation(just like how light comes out of a flashlight). As the neutron star rotates, the point on the neutron star also moves along. When it points toward the Earth, we see the pulse.
Alpha and Beta Radiation are types of ionizing radiation. They are both charged particles though Alpha is heavier than the particle Beta.
X-rays are not a type of nuclear radiation. They are a type of electromagnetic radiation.
A rotating neutron star may emit continuous beams of electromagnetic radiation from its poles. Due to its rotation, and the fact that the magnetic poles do not necessarily align with the axis of rotation, such a beam may periodically be directed towards our solar system. We observe the beam as it flashes past us, noting a pulse.It may also be possible for a neutron star in a binary system to periodically accrete enough matter on its surface from its companion for it to undergo fusion, producing omnidirectional X-ray flashes.
No we are not able to see proton neutron or electron by visible electromagnetic radiation. So no one have picture of it, but these can be detected by various sensors.
Pulsars are highly magnetized, rotating neutron stars that emit a beam of electromagnetic radiation
A Pulsar is highly magnetised, rotating neutron star that emits a beam of electromagnetic radiation.
A pulsar is an extraterrestrial source emitting regular waves of electromagnetic radiation which is believed to be a rapidly rotating neutron star.
Pulsars are highly magnetized, rotating neutron stars that emit a beam of electromagnetic radiation with it's magnetic pole pointing towards Earth.So a pulsar is a neutron star, it's just we can observe the beam from Earth.
Neutron stars are able to produce pulses of radiation because they are rotating, and only a certain place on the neutron star releases the radiation(just like how light comes out of a flashlight). As the neutron star rotates, the point on the neutron star also moves along. When it points toward the Earth, we see the pulse.
Pulsars are rapidly rotating neutron stars that emit beams of electromagnetic energy. Neutron stars form when the core of a massive star collapses and goes supernova leaving behind a neutron star which will begin rotating and releasing energy.
A pulsar is a rapidly spinning neutron star that releases regular pulses of electromagnetic radiation from its magnetic field
Alpha and Beta Radiation are types of ionizing radiation. They are both charged particles though Alpha is heavier than the particle Beta.
Alpha, Beta, Neutron, X-ray, Gamma, Neutron radiation, Electromagnetic radiation, Visible light, Infrared, Microwave, Radio waves, Very low frequency (VLF), Extremely low frequency (ELF), Thermal radiation (heat) and Black body radiation.
It is a neutron star. A pulsar is nothing more than a neutron star whose "beams" are detectable from Earth. Apart from that they are the same thing.
X-rays are not a type of nuclear radiation. They are a type of electromagnetic radiation.
A rotating neutron star may emit continuous beams of electromagnetic radiation from its poles. Due to its rotation, and the fact that the magnetic poles do not necessarily align with the axis of rotation, such a beam may periodically be directed towards our solar system. We observe the beam as it flashes past us, noting a pulse.It may also be possible for a neutron star in a binary system to periodically accrete enough matter on its surface from its companion for it to undergo fusion, producing omnidirectional X-ray flashes.