Nerull

Nerull t1_je2gtig wrote

If you have access to a camera with manual exposure settings, here's an experiment: Setup the exposure for a properly exposed, sun lit daytime photo.

Without touching the settings, take the camera outside at night, point it at the sky, and snap a photo. What do you think you'll capture?

The answer is: nothing. The stars are far too dim, compared to sunlight, to show up in the exposure at all. Most space photography is done in sunlight, of things that are sun lit. The cameras are set to properly exposed these sun lit things, and the lack of an atmosphere doesn't change the fact that the stars are just too dim to show up in the same exposure.

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Nerull t1_jdx5z5i wrote

No, the black hole is an essentially insignificant portion of the galaxies entire mass. The galaxy is orbiting it's own collective mass not the black hole.

For reference, Sag A* is about 0.0007% of our galaxies mass. It's gravitational attraction on our solar system is completely insignificant compared to the rest of the galaxies mass.

Our solar system orbits the galaxy at about 230000 m/s. Sag A*'s escape velocity at our orbital radius is about 2090 m/s. If the rest of the galaxy vanished, we would go flying out into intergalactic space, since we aren't even close to being gravitationally bound to the black hole.

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Nerull t1_jd646f7 wrote

Not really. For interstellar asteroids you're looking at transit times between star systems measured in millions of years. Nuclear power isn't going to last that long. Frankly, neither is human technology. If people did somehow survive on an asteroid for millions of years, they wouldn't have any cultural memory left of how they got there or why and they would have evolved to be substantially different than humans on Earth - which they might find at their destination anyway, if Earth humans develop faster propulsion methods.

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Nerull t1_jd63gc2 wrote

Asteroids are not traveling nearly fast enough to be useful to transit from one place to another.

Realize you're talking about transit times measured in millions of years.

Even at these slow speeds, we basically get one shot to intercept it before its out of reach. There is no time to slowly launch many smaller probes to it, or build up a base on it.

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Nerull t1_jd2ckmo wrote

Reply to comment by SimplyZer0 in The effects of Red Shift by SimplyZer0

Quantum teleportation is the transmission of a quantum state from one location to another through a classical communication channel. What does that have to do with information transmission through entanglement?

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Nerull t1_jd1uavq wrote

Reply to comment by SimplyZer0 in The effects of Red Shift by SimplyZer0

The 2022 Nobel prize in physics did no such thing. It wasn't about information transfer at all. It also isn't new - Nobel prizes are awarded for important work, not new work. On average Nobel prizes are awarded about 15-20 years after a work is published, if that work proves to be important enough. This one did, but its not some breakthrough that we didn't understand until now - it was awarded for work in 80s and 90s that has been the status quo in quantum physics for decades - and that physics, including the physics the prize was awarded for - confirm that no information can be transferred through entanglement.

The most recent paper cited by the Nobel committee in their summary of the work the prize was awarded for was published in 1999.

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Nerull t1_jd01uau wrote

Why would redshift corrupt the data? It just changes the frequency.

If you watch the carrier frequency of a satellite broadcast using a radio spectrum analyzer as it goes overhead you can watch it drift up and down. Satellite comms work just fine.

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Nerull t1_jaea6ue wrote

Vertically launching rockets try to get out of the dense atmosphere as quickly as possible, so an air breathing engine wouldn't work for very long - Falcon 9 is above 30000 ft about 1 minute after launch, and above 50000 ft 20 seconds later. The added cost and complexity of another stage for such a short period of the flight aren't really worth it.

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Nerull t1_j9nh2oj wrote

Reply to comment by Siliskk in Time dilation question by [deleted]

A planet near the black hole would experience time much slower, not faster. Being in a gravity well slows down time relative to a point far away from it.

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Nerull t1_ixx81pe wrote

Reply to comment by gol4 in light from galaxies by gol4

The light from any such explosion would have arrived before they did and would be long gone by now.

You cannot travel faster than light. It is not possible for an object to travel from Andromeda to Earth faster than light does so.

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