ArtificialHalo t1_isjwqqu wrote
yea and it's fkin' absurd right.
You are having the same pull on the M87 black hole as it is having on you.
Grombrindal18 t1_isjxzkn wrote
I'm pretty sure the black hole is pulling me towards it more than I'm pulling it to me.
But it's still wild to think that I am pulling every black hole in existence towards me, just a little bit.
ExtonGuy t1_isjzraz wrote
M87 is pulling on you exactly as much as you pull on M87. The forces are equal and opposite, at about 1 x 10^(-24) N. Which is super small.
EDIT: if there were no other forces involved (like Earth's gravity), that much force would move you about 0.1 micrometers in 100 years. For comparison, a red blood cell is 7 micrometers diameter.
wanted_to_upvote t1_iskc92s wrote
I think what he means is that he will move towards the black hole as opposed to the other way around (in relation to other objects) as the orbit decays.
FatiTankEris t1_iskgas5 wrote
The force then is still equal. People forget that acceleration depends on mass too, and that's why people fall towards Earth more than Earth falls towards people.
[deleted] t1_iskjcci wrote
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GarunixReborn t1_isl6dvp wrote
>M87 is pulling on you exactly as much as you pull on M87. The forces are equal and opposite
no, M87's gravity is much much stronger than that of a single human. They are anything but equal.
ExtonGuy t1_islave3 wrote
The forces are equal. The responses to the forces are unequal.
GarunixReborn t1_islz49p wrote
So why do you fall faster on earth than you would on the moon or mars? Do they themselves accelerate at 6m/s towards you?
ExtonGuy t1_isnzn9h wrote
You fall faster on Earth because the force is 6 times more than on the Moon. They don't accelerate at 6 m/s^(2), because even thought they feel the same force you do, they are many billion of times more massive.
Acceleration = Force / Mass
On Earth, your acceleration is 9.81 m/s^(2). Earth's acceleration toward you is 8.21 x 10^(-23) m/s^(2).
GarunixReborn t1_ispnp90 wrote
>You fall faster on Earth because the force is 6 times more than on the Moon.
So the forces are not equal then
ExtonGuy t1_ispy79c wrote
The force of the MOON on you is not equal to the force of the EARTH on you, that much is true. But the force of the moon on you is equal to the force of you on the moon. For any two bodies X and Y, the gravitation force of X on Y is equal to the force of Y on X.
autoposting_system t1_isk1dpc wrote
Nah, you're pulling each other just as hard.
You're just a lot easier to pull
thatgoodguyjoe t1_iskvstd wrote
Double dutch rudder?
[deleted] t1_isld22n wrote
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Courcy6185 OP t1_isjyird wrote
Lmao great and creepy point
Miserable_Site_850 t1_iskk6fm wrote
All we need from a black hole is a lil bit, get the pulling and tugging a lil bit, go shake that thing I want to touch that thing keep it pulling us round and round
Courcy6185 OP t1_isjxnic wrote
Well, different amounts since theres more mass in 1 right?
LaunchTransient t1_isjzlqr wrote
No, Newton's 3rd law - every action has an equal and opposite reaction.
The force acting on one object is equal to the force acting on ther other - now the relative motion of each object will be different, as a lighter mass will accelerate more than the larger mass, but the product of an objects mass and acceleration will be equal to the other's.
In short: Small mass has big acceleration, Huge mass has tiny acceleration. Both have same force acting on them.
Courcy6185 OP t1_isk0gsd wrote
That's wild. Good explaination thanks
[deleted] t1_isk26h6 wrote
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