The Moon moves away from the earth  Is the theory correct ?
The moon moves away from the earth 3,8 cm per year.
In the past the velocity has been gradually increased. I have read at the internet, that when the theory explaining this cause of this phenomena is correct the moon would for about 85 million years been orbiting 4 meters above the earth. My own calculation shows this would have happen for about 1, 2 billion years ago (if this theory is correct). We know that the moon is more than 4 billion years old, so how is it possible to keep believing such dictionary theory? (sorry if this is not perfect English) 
Re: The Moon moves away from the earth  Is the theory correct ?
I doubt the recession speed was vastly higher in the past, but anyway, if we use 3.8 cm/yr and the current distance of 385,000 km, we get 10 billion years. So it would have had to average more than double that recession velocity to have started off very near the earth.

Re: The Moon moves away from the earth  Is the theory correct ?
I believe (according to the prevailing theory) the moon will not forever move away from us with 3,8 cm per year, but rather slower and slower.
Therefore I also think (that according to the prevailing theory) that the moon in the past was moving away from earth faster than now, and properly proportional with >>> g = G x M1xM2 /r^2 But I do not fully understand the prevailing theory, and would appreciate to have some simple explanation to way this happen? 
Re: The Moon moves away from the earth  Is the theory correct ?
Okay, here goes. Because gravity falls off with distance, there is a differential in the Moon's gravity across the Earth. This differential is call a tidal force. The tidal force raises bulges in the ocean called tidal bulges. If nothing else interfered, these tidal bulges would align with the Moon.
The Earth, however, rotates. As it does so, friction between the Earth and the tidal bulges tries to drag the bulges along with the Earth. As a result, the tidal bulges lead the Moon a little. The moon tries to pull back on the bulges, but this alos means the bulges pull forward on the Moon. This transfers angular momentum from the Earth to the Moon. The Moon tries to speed up in its orbit. But doing so causes it to climb into a higher orbit and the Moon recedes from the Earth. As far as the recession being faster when the Moon was younger, its not that simple. There are a lot of factors besides the difference in gravitational attraction. The friction between the Earth and the tidal bulges has a huge effect. Reduce the friction and the bulges lead the Moon by less and thus pull forward on the Moon less, causing a lower recession rate. The continents play a large role in determining this friction. Because of plate tectonics, the continents weren't always in the configuration they are now. In fact, in the past they were clustered together in one landmass centered on the pole. In this configuration, they offered little resistance to the tidal bulges and the friction between Earth and the bulges is greatly reduced causing a much smaller recession rate then otherwise. 
Re: The Moon moves away from the earth  Is the theory correct ?
Thank you
Nice and simple 
Re: The Moon moves away from the earth  Is the theory correct ?
This has often troubled me! Maybe somebody can enlighten me?
From the Moon's POV, we see the Earth stationary in the sky. So, from the Moon's POV, why doesn't gravitational attraction happen?? Shouldn't the Earth approach the Moon? If we were living on the Moon and studying the receding Earth, wouldn't we come to a conclusion that involved spinning objects creating a repulsive force or something? I'm confused by this. Talking about "tidal forces" and stuff confuses me too, because what "force" are we exactly talking about here? Gravity? Electromagnetic? Strong nuclear? Weak nuclear? Argh! Can somebody please explain lucidly why the Earth, from the vantage point of the Moon, is receding? Does the "background universe" somehow have an effect on this? EDIT: AH forget it, I just reread Janus's lucid explanation and it cleared things up in a way I haven't experienced before. Thank you Janus! 
Re: The Moon moves away from the earth  Is the theory correct ?
Cryptonic have a point here
The Moon is forcing the tidal waves forward on its way over the oceans, thereby avoiding the gravitational effect from this mass until the waves hit land and the Moon is moving over the waves. If e.g. the water of the Atlantic Ocean was pressed above Euroasia, the gravitational force between Earth and the Moon would merely result in a negative anomaly above the Atlantic Ocean and a positive anomaly above Euroasia. The variation of the mass attraction between Earth and the Moon would probably neutralize each other. If so, we can forget about any additional gravitational effect caused by a "returning tide wave" Neither friction between the oceans’ bodies of water and the sea bottom can explain that friction between 2 internal bodies on Earth can have such an effect on the Moon that its acceleration increases, simply because it has not been explained how a dynamic rotational force could be transferred to the Moon through space. So what does really cause this phenomenon? How is "mechanic" forces "transferred through space / to the moon?" Friction gives normally only heat and can not adapt to the mass attraction connection? It seem to be a "missing link” here ? 
Re: The Moon moves away from the earth  Is the theory correct ?
Quote:
The tidal bulges on Earth are carried ahead of the Earth–Moon axis by a small amount as a result of the Earth's rotation. This is a direct consequence of friction and the dissipation of energy as water moves over the ocean bottom and into or out of bays and estuaries. Each bulge exerts a small amount of gravitational attraction on the Moon, with the bulge closest to the Moon pulling in a direction slightly forward along the Moon's orbit, because the Earth's rotation has carried the bulge forward. The opposing bulge has the opposite effect, but the closer bulge dominates due to its comparative closer distance to the Moon. As a result, some of the Earth's rotational momentum is gradually being transferred to the Moon's orbital momentum, and this causes the Moon to slowly recede from Earth at the rate of approximately 38 millimetres per year. 
Re: The Moon moves away from the earth  Is the theory correct ?
according to wikipedia tidal forces are proportional to 1/d^3
so if tidal forces doubled then how much higher would the tides be? also, assuming that the bulges lag by the same amount, what does this all translate into in terms of net acceleration on the moon? (the tidal bulge on one side of the earth partially cancels the effect of the bulge on the other side) and lastly, would the bulges lag by the same amount if friction remained the same? 
Re: The Moon moves away from the earth  Is the theory correct ?
so the 2 bulges together form a sort of dipole. so I would expect that the acceleration of the moon, if the mass of the bulges remains the same, would be 1/d^3

Re: The Moon moves away from the earth  Is the theory correct ?
grandpa correctly notes that tidal forces are proportional to the cube of distance. The other conclusions are incorrect.

Re: The Moon moves away from the earth  Is the theory correct ?
ok. apparently that was wrong.
let the moon be at the origin. let the center of the earth be at (d,0). let bulge one be at (dr,x). let bulge two be at (d+r,x). let d>>r>>x. let x be constant. let L1=distance from moon to bulge one. let L2=distance from moon to bulge two. to get a unit vector pointing in the direction of bulge one we simply divide each component of the coordinates of bulge one by L1. likewise for bulge two. net force from bulge one on the moon is 1/L1^2. multiplying by the unit vector and taking only the x component we get x/L1^3. for bulge two we get x/L2^3. the sum of these 2 numbers (one of the x's is negative) is the net acceleration of the moon in the direction of its orbit. this is proportional to L1^3L2^3/(L1^3*L2^3) 
Re: The Moon moves away from the earth  Is the theory correct ?
L1^3L2^3/(L1^3*L2^3)
to solve this we need to approximate.. (or at least I do) let L1=d+a (where d>>a) let L2=da the numerator reduces to exactly 6d^2a+2a^3 (the d^3 terms cancel out) the denominator I didnt work out exactly but its obvious that its largest term is d^6. since d>>a the a^3 term can be ignored. so I get net force/acceleration (for a given set of bulges) is proportional to 1/d^4 tidal force is proportional to 1/d^3. assuming that twice the tidal force will result in tides twice as high (and twice as massive) and that the bulges continue to lag by the same amount then the net acceleration of the moon is 1/d^7. then it becomes a matter of orbital mechanics. its obvious that if we double the acceleration of the moon in its present orbit that we would double the rate at which it is moving away. but what if it were in a different orbit and we kept the acceleration the same? 
Re: The Moon moves away from the earth  Is the theory correct ?
the angular momentum of the moon is mvd.
torque is force times d. it produces change in angular momentum just as force produces change in momentum. centrifugal force is mv^2 / d gravity equals 1/d^2 the cetrifugal force must equal the gravitational force v^2/d=1/d^2 v=1/√d therefore the velocity of the moon at distance d from earth is 1/√d therefore the angular momentum of the moon at distance d is √d therefore the derivative of √d gives the amount of potential angular momentum stored at each distance d. d/dd*√d=1/(2*√d) the tidal force acting on the moon (to accelerate it) at distance d is 1/d^7 therefore the torque (rate of change of angular momentum) acting on the moon at distance d is 1/d^6 the infinitesimal time spent at each infinitesimal distance is potential angular momentum per distance divided by torque. this equals [1/(2*√d)]/[ 1/d^6]. which equals d^6/(2*√d)≡d^5.5 therefore t(d)=d^6.5 d(t)=t^(1/6.5) continued in post 18 
Re: The Moon moves away from the earth  Is the theory correct ?
The topic referred is called tidal acceleration or tidal friction. Quote:
Reference: Tidal friction  Wikipedia 
Re: The Moon moves away from the earth  Is the theory correct ?
Agree with orion. It's called tidal locking  see Mercury. The earthmoon relationship is not nearly ancient enough to achieve this state given their relative masses.

Re: The Moon moves away from the earth  Is the theory correct ?
I understand that the "level difference" of the tidal bulge gives larger mass attraction and therefore also larger accelration.
But I do not understand how friction on earth can be "connected" with a mass attraction connection. (All the calculations of granpa I do not understand) How can friction between the oceans’ bodies of water and the sea bottom  explain that friction between 2 internal bodies on Earth can have such an effect on the Moon that its acceleration increases,  it has not been explained how a dynamic rotational force could be transferred to the Moon through space. Can someone explain that, in simple words. 
Re: The Moon moves away from the earth  Is the theory correct ?
continued from posts 14, 13, and 12
I have finished my calculations. I just needed to get some sleep and get a fresh perspective on it. the infinitesimal time spent at each infinitesimal distance is change in angular momentum per unit (distance) divided by torque (rate of change of angular momentum). dt=[1/(2*√d)]/[ 1/d^6]*dd therefore dt≡d^5.5*dd. lets define an arbitrary unit of distance equal to 38 mm. just call them units. the moon is 10 billion units from earth today. the recession rate of the moon today is 1 unit/year so if dd=one unit then dt=one year. given dt=(10^55)*d^5.5*dd (measured in units and years) then t(d)=(1.53846*10^56)d^6.5 t(10,000,000,000)=153,846,000 which is totally wrong. 
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