[ - ] FreeinTX 1 point 9 monthsAug 2, 2024 12:56:25 ago (+1/-0)
Simple. That picture is purely a demonstration of some dumb fucking making shit up.
Yes. A slightly less perfect vaccuum can exist near a near vaccuum, and only needs a tiny amount of gravitational attraction to maintain equilibrium.
G = M1M2/d^2
G = Force due to gravitational attraction = <- An equals sign - means the equation on both sides of this sign are of the same value M1 = the mass of the earth M2 = the mass of a particular / <- this is a division symbol. Probably where you are getting confused, cause maf is hard. d = distance ^ <- what's the correct term for this? I forget. But "raised to the power of" may be another tripping point for you, cause maf is really hard. 2 = That's the number 2. Comes after 1 and before 3 on a scale of whole numbers.
Ftotal = Fearth + Fmoon
This is a sum of two forces. If the forces are acting in the same direction they are cumulative. If they are acting in opposite direction, they are the difference.
It's not one or the other, its both working together or in opposition.
The difference in the moon's gravity acting on a molecule at the edge of the earth's atmosphere is nowhere near strong enough to oppose the earth's gravity keeping the particles in it. Although, there is no doubt that the moon's gravity will aid an escaping particle if it's been excited by other means.
See? You're picture is answered, and shows the creator of the picture is dumb as utter fuck.
[ - ] McNasty [op] 1 point 9 monthsAug 2, 2024 12:58:17 ago (+1/-0)
Lol. Now do the Holocaust.
It's simple, you have to explain why the moon can beat the Earth's gravity at the surface, but in the same position lose to the Earth's gravity at the edge of the atmosphere. The Moon should be stronger and the Earth should be weaker at that point. Moon also exists in the near perfect vacuum of space and would have the addition of that.
[ + ] FreeinTX
[ - ] FreeinTX 1 point 9 monthsAug 2, 2024 12:56:25 ago (+1/-0)
Yes. A slightly less perfect vaccuum can exist near a near vaccuum, and only needs a tiny amount of gravitational attraction to maintain equilibrium.
G = M1M2/d^2
G = Force due to gravitational attraction
= <- An equals sign - means the equation on both sides of this sign are of the same value
M1 = the mass of the earth
M2 = the mass of a particular
/ <- this is a division symbol. Probably where you are getting confused, cause maf is hard.
d = distance
^ <- what's the correct term for this? I forget. But "raised to the power of" may be another tripping point for you, cause maf is really hard.
2 = That's the number 2. Comes after 1 and before 3 on a scale of whole numbers.
Ftotal = Fearth + Fmoon
This is a sum of two forces. If the forces are acting in the same direction they are cumulative. If they are acting in opposite direction, they are the difference.
It's not one or the other, its both working together or in opposition.
The difference in the moon's gravity acting on a molecule at the edge of the earth's atmosphere is nowhere near strong enough to oppose the earth's gravity keeping the particles in it. Although, there is no doubt that the moon's gravity will aid an escaping particle if it's been excited by other means.
See? You're picture is answered, and shows the creator of the picture is dumb as utter fuck.
[ + ] McNasty
[ - ] McNasty [op] 1 point 9 monthsAug 2, 2024 12:58:17 ago (+1/-0)
It's simple, you have to explain why the moon can beat the Earth's gravity at the surface, but in the same position lose to the Earth's gravity at the edge of the atmosphere. The Moon should be stronger and the Earth should be weaker at that point. Moon also exists in the near perfect vacuum of space and would have the addition of that.
You are retarded.
[ + ] ZenoOfElea
[ - ] ZenoOfElea 1 point 9 monthsAug 2, 2024 13:49:16 ago (+1/-0)
GOTT'EM
[ + ] McNasty
[ - ] McNasty [op] 0 points 9 monthsAug 2, 2024 13:50:15 ago (+0/-0)
[ + ] ZenoOfElea
[ - ] ZenoOfElea 1 point 9 monthsAug 2, 2024 13:56:15 ago (+1/-0)
[ + ] McNasty
[ - ] McNasty [op] 1 point 9 monthsAug 2, 2024 14:00:53 ago (+1/-0)