this post was submitted on 28 Aug 2023
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No Stupid Questions

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[–] raspberriesareyummy@lemmy.world 0 points 1 year ago (2 children)

Does the change in gravity gradient across your body kill you right now? No? You are currently orbiting the supermassive black hole in the center of the milky way. You and everything else in the milky way aside from a few intergalactic objects just traveling through.

I am not an astrophysicist, but I do understand basic physics.

[–] jon@lemdro.id 1 points 1 year ago (1 children)

If the gravity were strong enough and the source close enough then the tidal force would absolutely be strong enough to simultaneously crush you and rip you apart. The same effect gives rise to tides on this planet, hence the name.

[–] raspberriesareyummy@lemmy.world 0 points 1 year ago (1 children)

Your orbiting a black hole situation is a perfect example of a situation where the gradient alone would tear you apart.

I just proved this claim of yours wrong, and then you move the goalposts. I said from the very beginning that a gravity gradient is a problem.

[–] jon@lemdro.id 1 points 1 year ago* (last edited 1 year ago)

I studied Relativity at university as part of combined Physics/Maths degree, but please feel free to continue entertaining us with your popular magazine-based learnings.

[–] cecilkorik@lemmy.ca 1 points 1 year ago (1 children)

Does the change in gravity gradient across your body kill you right now? No? You are currently orbiting the supermassive black hole in the center of the milky way.

It was implied by "accretion disc" and by the fact that we're talking about gravitational gradients at all that we're talking about a close orbit. Gravitational strength gets smaller with distance according to the inverse square law, so by the time you're a few light years out from the galactic core the gravitational gradient is already extremely insignificant.

[–] raspberriesareyummy@lemmy.world 1 points 1 year ago* (last edited 1 year ago)

Accretion discs can be large enough that I am pretty sure a human body wouldn't be torn apart at that distance (at least the outer bits) by the difference in gravity across it's length. In the linked article about the supermassive black hole at the center of the Milky Way, we're talking 1000 astronomic units, so 1.5 * 10^14 meters.

The current value of this black hole's mass is estimated at ca. 4.154±0.014 million solar masses.

So let's calculate the equivalent distance from the sun in terms of gravitational force on an object at the outer edge of the accretion disk:

F_sun = C * (R_equivalent)^-2 * m_object

F_black_hole = C * 4.15*10^6 * (R_accretion_disk)^-2 * m_object

where C equals the gravity constant times the mass of our sun.

==> C * (R_equivalent)^-2 * m_object = C * 4.15*10^6 * (R_accretion_disk)^-2 * m_object

divide by C and m_object:

<=> (R_equivalent)^-2 = 4.15*10^6 * (R_accretion_disk)^-2

invert:

<=> R_equivalent^2 = (1/4.15) * 10^-6 * (R_accretion_disk)^2

==> R_equivalent^2 ~= 0.241 * 10^-6 * (R_accretion_disk)^2

square root (only the positive solution makes sense here):

==> R_equivalent ~= 0.491 * 10^-3 * R_accretion_disk

with R_accretion_disk = 1000 astronomic units = 10^3 AU

<=> R_equivalent ~= 0.491 * 10^-3 * 10^3 AU

<=> R_equivalent ~= 0.491 AU

Unless I have a mistake in my math, I sincerely hope you will agree that the gravitational field (tidal forces) of the sun is very much survivable at a distance of 0.491 astronomical units - especially since the planet Mercury approaches the sun to about 0.307 AUs in its perihelion.