Structure of a neutron star! ASER CORTO DE ENERGIA FEDERACION NACION X NACION TIERRA SACAR LA PLANTA DE ALTAPOTENCIA ASER CORTO GALAXI PLANETA JUPITER CABLS CON CADA COLOR DESECHUBAR INTERNET DEL INVIERNO Y BASE DE TARIMA DE EJE CUERP O ORGANOS DIF PRECIDECCIDENCAI CAMION CARGA BBBATERIAS Y VOLTAGES APAGAR VIA ELETICO

Inside a Neutron Star (Infographic) by Karl Tate, Infographics Artist

NOT a nebula. More like a magnetar or neutron star. In any case, beautiful image.

NOT a nebula. More like a magnetar or neutron star. In any case, beautiful dimensional image.

A Hubble Space Telescope photo of a rapidly spinning neutron star, also known as a pulsar.

A Hubble Space Telescope photo of a rapidly spinning neutron star, also known as a pulsar, millions of light-years away.

Neutron stars are the densest and smallest stars known to exist in the universe; with a radius of only about 12–13 km (7 mi), they can have a mass of about twice that of the Sun.

Neutron stars are the densest and smallest stars known to exist in the universe; with a radius of only about km mi), they can have a mass of about twice that of the Sun.

According to general relativity, the sun’s mass makes an imprint on the fabric of spacetime that keeps the planets in orbit. A neutron star leaves a greater mark. But a black hole is so dense that it creates a pit deep enough to prevent light from escaping.

The mysterious boundary

Black Hole Space-Time Fabric - Pics about space it'd be interesting to do kind of an arbitrary number of bodies with arbitrary sizes and well depths that aren't necessarily corresponding --> DENSITY

#AstroFacts

Post with 108565 views. 42 Facts About Space, A Homage to Douglas Adams.

The pressure that exists in the core of a neutron star is so dense and strong, scientists think it may be very similar to the conditions of the Big Bang.

13 Scientific Facts That Will Amaze You

a teaspoon of neutron star weights more than everyone on earth combined Science is Awesome

An artist’s impression of two neutron stars colliding. Image: Dana Berry, SkyWorks Digital, Inc.

Colliding neutron stars seeded solar nebula with heavy elements

Etoiles à neutrons

Neutron Stars Despite the fact a neutron star is only about 13 miles in diameter it is about times more massive than the sun. (Illustration: NASA/CXC/M.

Merging Galaxies Bursting With Light - NGC 2207 and IC 2163 Just like our Milky Way galaxy, NGC 2207 and IC 2163 are sprinkled with many star systems known as X-ray binaries, which consist of a star in a tight orbit around either a neutron star or a stellar-mass black hole.

Merging Galaxies Bursting With Light - NGC 2207 and IC 2163 Just like our Milky Way galaxy, NGC 2207 and IC 2163 are sprinkled with many star systems known as X-ray binaries, which consist of a star in a tight orbit around either a neutron star or a.

Neutron stars. They can complete a full rotation in 1 second and are 500,000x more massive than Earth.

A magnetar is a neutron star that has a huge magnetic field, million billion times the Earth whose decay generates intense and abundant electromagnetic radiation, particularly X-rays and gamma rays.

Pulsars, superdense neutron stars, are perhaps the most extraordinary physics laboratories in the Universe. Research on these extreme and exotic objects already has produced two Nobel Prizes. - (Credit: Bill Saxton, NRAO/AUI/NSF)

Pulsars: The universe's gift to physics

Pulsars, superdense neutron stars, are perhaps the most extraordinary physics laboratories in the Universe. Research on these extreme and exotic objects already has produced two Nobel Prizes.

Pulsar - A pulsar (pulsating star) is a highly magnetized, rotating neutron star that emits a beam of electromagnetic radiation. Neutron stars are very dense, and have short, regular rotational periods. This produces a very precise interval, between pulses that range from roughly milliseconds to seconds for an individual pulsar.  Certain types of pulsars rival atomic clocks in their accuracy in keeping time.

Pulsar - A pulsar (pulsating star) is a highly magnetized, rotating neutron star…

Binary neutron stars have given us the first (indirect) evidence of the existence of gravitational waves. The most famous binary neutron star system is the Hulse-Taylor pulsar, which was shown to be losing orbital energy at exactly the rate one would expect if gravitational waves are emitted in the way general relativity predicts.

Binary neutron stars have given us the first (indirect) evidence of the…

Astronomers have found evidence for what is likely one of the most extreme pulsars, or rotating neutron stars, ever detected. The source exhibits properties of a highly magnetized neutron star, or magnetar, yet its deduced spin period is thousands of times longer than any pulsar ever observed. For decades, astronomers have known there is a dense, compact source at the center these remains of a supernova explosion located about 9,000 light years from Earth. Image credit: X-ray…

Young Magnetar Likely the Slowest Pulsar Ever Detected Supernova Remnant RCW 103

Pinterest
Search