Home https://server7.kproxy.com/servlet/redirect.srv/sruj/smyrwpoii/p2/ Science https://server7.kproxy.com/servlet/redirect.srv/sruj/smyrwpoii/p2/ An FM radio signal coming from Jupiter’s moon has been found

An FM radio signal coming from Jupiter’s moon has been found



when we think of stars. The supermassive balls of white synthesis gas are probably the ones that come to mind, but they aren’t big either. In fact, in the Milky Way galaxy, the red dwarf EBLM j 0555-57 A. B is only larger than Saturn and is actually smaller than Jupiter. So you may be wondering: Why has Jupiter never become a star? After all, Jupiter is made of the same things as stellar air made of hydrogen and helium. But the biggest factor is its density. Of course, Jupiter’s mass may be 2.5 times that of the other planets in our solar systems, but its density is only about 1.33 g per cubic centimeter. And yes, the solar mass can be only 1

.41 g per cubic centimeter. While Jupiter is large on a planetary scale, it is only 0.1 times the mass of our solar stars when the core of a future star is pressed so hard under the gravity of its own mass. This fusion is happening, and Jupiter, while large, simply does not have enough mass. So instead of being a failed star. As some may say, Jupiter is more likely the remnants of gases from the birth of our own solar systems. Son, right?

An FM radio signal coming from Jupiter’s moon has been found


Related video above: That’s why Jupiter never became a star A spaceship orbiting Jupiter detected an FM radio signal from Ganymede, one of the gas giant’s moons. The discovery marks the first time a signal from Ganymede has been detected. Patrick Wiggins, NASA’s ambassador to Utah, warned that they were probably not aliens, according to the KDFW. “It’s not ET,” Wiggins said. “It’s more of a natural function.” The spacecraft, named Juno, was moving through a region of Jupiter where the lines of the magnetic field could connect to the moon Ganymede. Just then, Juno picked up the radio source. Juno was sent to study how Jupiter formed and evolved over time. “Juno’s main goal is to reveal the story of the formation and evolution of Jupiter. Using long-proven technologies of a rotating spacecraft placed in an elliptical polar orbit, Juno will observe the gravity and magnetic fields of Jupiter, atmospheric dynamics and composition and evolution, “according to NASA. Electrons were responsible for radio, not aliens In a process called cyclotron-maser instability, electrons oscillate at a lower speed than they rotate, causing them to amplify radio waves quickly. Although a significant discovery, the orbital spacecraft managed to absorb the radio emissions in just five seconds. Juno threw at a blinding speed of 111,847 mph. That’s fast enough to cross the entire coast of the United States to shore in just under two minutes.

Related video above: That’s why Jupiter never became a star

A spacecraft orbiting Jupiter detected an FM radio signal from Ganymede, one of the gas giant’s moons. The discovery marks the first time a signal from Ganymede has been detected.

Patrick Wiggins, NASA’s ambassador to Utah, warned that they were probably not aliens, according to the KDFW.

“It’s not ET,” Wiggins said. “It’s more of a natural feature.”

The spacecraft, called Juno, was moving through a region of Jupiter where the lines of the magnetic field could connect to the moon Ganymede. Just then, Juno picked up the radio source.

Juno was sent to study how Jupiter formed and evolved over time.

“Juno’s main goal is to reveal the story of the formation and evolution of Jupiter. Using long-proven technologies of a rotating spacecraft placed in an elliptical polar orbit, Juno will observe the gravity and magnetic fields of Jupiter, atmospheric dynamics and composition and evolution, according to NASA.

It is the electrons, not the aliens, that are responsible for the radio emissions from the moon.

In a process called cyclotron maser instability, electrons oscillate at a lower speed than they rotate, causing them to amplify radio waves rapidly.

Although a significant discovery, the orbital spacecraft managed to absorb the radio emissions in just five seconds. Juno threw at a blinding speed of 111,847 mph. That’s fast enough to cross the entire coast of the United States to shore in just under two minutes.


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