Unlocking the Mystery of Earth's Rotation & Revolution

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In summary, the Earth is rotating because it started out rotating, and inertia keeps it turning until something stops it, which didn't happen. But the tidal effect from the moon slows down Earth's rotation so that it always turns the same side of the Earth towards the moon.
  • #1
chani10in
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This question has been a mystery for me since years and I asked this to my teacher and she had no answer. So, answer me if you can:

Q. What makes Earth rotate on its axis? Answer is not gravitational force or magnetic field inside the Earth as the two are caused by Earth's rotation!
Q. What makes Earth revolve around sun? And how was it initiated?
 
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  • #2
Not many people know this, but there's a small electric motor attached to the Earth somewhere :smile:

No, seriously, the Earth is rotating because it started out rotating, and inertia keeps it turning until something stops it, which didn't happen.
How did it get turning ? The gas cloud from which our solar system was formed, was rotating. Why ? Because it is more difficult NOT to have it rotate when stuff gets together than to get it rotating. Indeed, for not to have it rotating, there would have to be a precise balance between things moving "to the left" and things "moving to the right" ; the imbalance would make the overall cloud turn on average in one way or another. So if arbitary matter gets lumped together, most of the time it will rotate somehow.
 
  • #3
chani10in said:
Q. What makes Earth rotate on its axis? Answer is not gravitational force or magnetic field inside the Earth as the two are caused by Earth's rotation!
Q. What makes Earth revolve around sun? And how was it initiated?

You have said that the gravitational force of the Earth is caused by the Earth's rotation, which is not correct. The gravitational of the Earth will be there even if the Earth is not rotating.

Notice that all the planets revolve around the Sun in the same direction, indicating the common origin of all the planets from a rotating gas cloud, as has been pointed out in the previous post.
 
  • #4
There may be a case for the right hand rule of magnetic field direction. Grasp a wire with your right hand and when the current flows in the direction of your extended thumb the field estends in the direction of the curved fingers. A Faraday homopolar motor turns by the exploitation of this principle. All it would take in a primordial plasma cloud would be the preponderance of direction of current flow to start the rotation. Now where the voltage generator would be is a very good question.
 
  • #5
So why is the moon only rotating at the same speed as it's orbital rate (with some oscillation)? What slowed it down to this speed?
 
  • #6
Earth and other planets in the solar system were created from the protoplanetary disk or accretion disk which revolved around the sun. So when the planets formed, they still keep the kinetic energy by revolving around the sun. You can see all the planets revolve in almost the same plane which is the plane of the once exist accretion disk. All the planets also revolve in the same direction.
The rotation is explained similarly, but rotation can be affected by impacts so each planet has very different axis and angular velocity.
 
  • #7
Jeff Reid said:
So why is the moon only rotating at the same speed as it's orbital rate (with some oscillation)? What slowed it down to this speed?

Tidal effect. A body like the moon is slightly elastic, and gets deformed in a gravitational field. This couples the orbit motion with the rotational motion, and dissipates energy, until both motions are synchronized. The Earth undergoes also tidal effect from the moon (ocean tides), and this slows down Earth's rotation, and in the end, the Earth will rotate with the speed of the orbit rotation of the moon (that means: always the same side of the Earth will face the moon). But this has not settled yet, because the Earth is bigger, and has much more rotational energy than the moon had. But this slowing down is measurable (although small).
 
  • #8
vanesch said:
Tidal effect. A body like the moon is slightly elastic, and gets deformed in a gravitational field. This couples the orbit motion with the rotational motion, and dissipates energy, until both motions are synchronized. The Earth undergoes also tidal effect from the moon (ocean tides), and this slows down Earth's rotation, and in the end, the Earth will rotate with the speed of the orbit rotation of the moon (that means: always the same side of the Earth will face the moon). But this has not settled yet, because the Earth is bigger, and has much more rotational energy than the moon had. But this slowing down is measurable (although small).

Wow, cool! So does this mean that the days are going to get longer for us from here on out, but the year will get shorter? Awesome vanesch that's class to know how on Earth (pardon the pun) though did they measure it, that's even more awesome still. The things people have experimented with and measured never ceases to amaze me!
 
  • #9
malty said:
Wow, cool! So does this mean that the days are going to get longer for us from here on out, but the year will get shorter?

How did you deduce that the year will get shorter?
 
  • #10
malty said:
Wow, cool! So does this mean that the days are going to get longer for us from here on out, but the year will get shorter? Awesome vanesch that's class to know how on Earth (pardon the pun) though did they measure it, that's even more awesome still. The things people have experimented with and measured never ceases to amaze me!

Heh, the years won't get longer but the days will. I think the moon takes 29 days to travel around the earth, so the days will be about 29 (current) Earth days long.
 
  • #11
The Earth will not take 29 days to rotate about its own axis. The total angular momentum of Earth plus moon system will remain the same. Details later.
 
  • #12
Shooting star said:
How did you deduce that the year will get shorter?

Yeah I know, my standard reasoning was that a year is 365.25 Earth days, and seeing as the day gets longer the year would have to get shorter if it were measured in Earth days.
Oops, I er forgot to mention that it is actually the same period of time.
 
  • #13
Shooting star said:
The Earth will not take 29 days to rotate about its own axis. The total angular momentum of Earth plus moon system will remain the same. Details later.
That isn't true. The Earth and moon will become tidally locked. The angular momentum/energy is dissipated as heat in tidal friction.
 
  • #14
russ_watters said:
The angular momentum/energy is dissipated as heat in tidal friction.
You shouldn't conflate angular momentum with energy. They are conserved by virtue of completely different symmetries (time and space). The angular momentum of the Earth/Moon system is conserved as the Moon recedes from the Earth and the Earth and Moon slow their rotation rates. The Earth will become tidally locked with the Moon billions of years from now. Because the Moon will have receded by another 50% by then, a month will be about 50*86400 seconds long (some sources say 45 rather than 50), as will one Earth and one Moon "day".
 
  • #15
malty said:
Wow, cool! So does this mean that the days are going to get longer for us from here on out, but the year will get shorter? Awesome vanesch that's class to know how on Earth (pardon the pun) though did they measure it, that's even more awesome still. The things people have experimented with and measured never ceases to amaze me!

One can directly measure it now. But the funniest indication was that when one calculated solar eclipses back in classical times, they didn't happen at the place where they would have happened if the Earth was turning at a steady rotational speed. Now, this is a complicated affair of course, because it takes into account also the orbital rotation of the moon and so on. But it fits perfectly with a transfer of angular momentum from the Earth rotation to the moon orbit.
 
  • #16
vanesch said:
The Earth undergoes also tidal effect from the moon (ocean tides), and this slows down Earth's rotation, and in the end, the Earth will rotate with the speed of the orbit rotation of the moon (that means: always the same side of the Earth will face the moon). But this has not settled yet, because the Earth is bigger, and has much more rotational energy than the moon had. But this slowing down is measurable (although small).

that's why there are leap seconds.
 
  • #17
Quote:
Originally Posted by Shooting star
The Earth will not take 29 days to rotate about its own axis. The total angular momentum of Earth plus moon system will remain the same. Details later.

russ_watters said:
That isn't true. The Earth and moon will become tidally locked. The angular momentum/energy is dissipated as heat in tidal friction.

The Earth and the moon will become tidally locked. The kinetic energy is dissipated as heat in tidal friction. The Earth and the moon can exchange angular momenta, but the angular momentum of the earth-moon system remains conserved, as long as there is no preturbation by other planets. One Earth day will not become equal to the present value of 29 earth-days.
 
  • #18
why_earth_turns

thank you for your response ; it is helpful to problematize the question of measure ; would you agree then that weight & movement (momentum) as well as frequency , partially measured in temperature , as well as angle of impact would be relevant in measuring the impact of the sun’s rays on the Earth ?

6.626 [/COLOR]196 x 10-34 . frequency = energy , but momentum not included ? one would need to know the surface of the Earth and the amount of light particles striking a square millimeter every second ; as a very basic starting point one would need to differentiate between momentum impacting on Earth at sunrise , at noon and at sunset , of course bearing in mind that such a position shifts along constantly to produce the 24 hour effect ; also : the way that the sun shines pass the Earth a factor , so the extend of the shadow on the night side not clear to me ; also : all these little particles hitting the Earth day after day , if they do not disappear , is the Earth becoming heavier as the sun is becoming lighter ?

consider that one photon strikes the crystals on a solar panel , produces the – and + that run through the copper wire to the battery , which in turn produces the small current to a laptop so you can type and make one letter , let’s say z appear on the screen ; it might not have much weight , but all the letters on all the computers can be measured in bytes , thus sunlight , channeled in different ways does turn into something concrete ?

(engels , antidüring ? cf. the texts of 1841, 43 & 44 , still no clear answer there ... ?)
 
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  • #19
From your last paragraph, I would say that "material" sunlight has turned into something abstract.

I also didn't understand what you meant by "partially measured in temperature" in the first para. The impact of sunlight on Earth can be definitely measured, but its effect on the Earth's movement is negligible. Also, momentum of a pulse of light is its energy divided by the speed od light.

The Earth does get heavier when it absorbs sunlight. It also gets lighter when it radiates away the sunlight as infrared or some EM radiation. Both processes take place. The sun is definitely getting lighter, not only by losing light, but mainly by losing mass.

Science has changed a long long way from the time of Hegel, and so has the philosophy behind science. If you are trying to make a point, sadly I am mising it.
 
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  • #20
Sifrtekhne said:
hegel said about the (Newtonian) science of his day "the reason why the planets turn around the sun is given as the force of attraction of the Earth and the sun on each other ... when it is asked , what type of a force the force of attraction is , then the answer is , that it is the force which causes the Earth to turn around the sun ... a tautological empty way of speaking [wissenschaft der logik , 1813:81]

This is a travesty of what science teaches, taught, and will teach.
Why bother about the sayings of an ignoramus like Hegel?
 
  • #21
Shooting star said:
The Earth and the moon will become tidally locked. The kinetic energy is dissipated as heat in tidal friction. The Earth and the moon can exchange angular momenta, but the angular momentum of the earth-moon system remains conserved, as long as there is no preturbation by other planets. One Earth day will not become equal to the present value of 29 earth-days.
If the kinetic energy is dissipated, how can the total angular momentum stay the same?

Anyway, there may be a misunderstanding going on here - and you're right that it won't be 29 days. Actually, it'll be a lot longer than that, since the moon will be orbiting further out and slower. It'll be about 47 days. http://www.physlink.com/education/askexperts/ae695.cfm

But that energy that the tides dissipate will be gone. It turns into heat and gets radiated away. In moons around Jupiter, the heat dissipated by tidal friction is intense.
 
  • #22
russ_watters said:
If the kinetic energy is dissipated, how can the total angular momentum stay the same?

Mmm, nevertheless, total angular momentum IS conserved, and energy IS dissipated.

Consider two disks on a shaft which turn at different angular velocities. Now, consider that their connection to the shaft is somehow with friction. They will dissipate some energy and the fastest rotating wheel will spin down somewhat, while the slowest rotating wheel will speed up somewhat, until both (together with the shaft) turn at an identical angular velocity (rotate as one block). In the process, kinetic energy is dissipated, but total angular momentum is conserved.

It's the same as conservation of (linear) momentum in inelastic collisions. If two balls fly through space, and collide and glue together, kinetic energy is dissipated, but total linear momentum is conserved.
 
  • #23
Ahh, like an inelastic collision. I'm not quite seeing it yet, but I'll think about it more...
 
  • #24
russ_watters said:
If the kinetic energy is dissipated, how can the total angular momentum stay the same?

If there is no net torque acting on an isolated system, the total angular momentum of the system is conserved.
 
  • #25
Sifrtekhne said:
thank you for your response ; this not a response but a question : in the attached formula , how was the value of h arrived at ?

Perhaps this not the correct thread for the type of discussion you would like to have. Anyway, I can't even view the picture you've posted (it's pending approval).

Please start a new thread in the appropriate forum.
 
  • #26
It is theorized that the Earth is rotating on its axis due to some large mass striking it at an angle.
 
  • #27
Dear Sifrtekhne,

Please continue this topic in the proper forum with a new thread.
 
  • #28
Sifrtekhne,

please don't hijack this thread - btw I have to say that I'm at loss at what you are trying to say with your quotes from philosophers ; if you want to make a point on topic, please show its relevance more clearly ; if you want to talk about some philosophical issue, we do have some philosophy sections on this forum.

I was trying to find out whether I should split off your contributions in a new thread, but I'm not even clear on what you want to say.
 
  • #29
MrXow said:
It is theorized that the Earth is rotating on its axis due to some large mass striking it at an angle.

Was this a reply to Sifrtekhne's questions? If not then, huh...?

(BTW, is a posting in other font colours not alowed?)
 
  • #30
Earth is rotating because the Earth was formed out of rotating cloud of gas before 5 billion years
 
  • #31
Shooting star said:
You have said that the gravitational force of the Earth is caused by the Earth's rotation, which is not correct. The gravitational of the Earth will be there even if the Earth is not rotating.

Notice that all the planets revolve around the Sun in the same direction, indicating the common origin of all the planets from a rotating gas cloud, as has been pointed out in the previous post.

They all revolve the same direction, but they all don't rotate the same.
 
  • #32
rewebster said:
They all revolve the same direction, but they all don't rotate the same.

Actually, Venus move around the sun in retrograde motion.
 
  • #33
rewebster said:
They all revolve the same direction, but they all don't rotate the same.

Sure! there must have been lots of impacts that have changed the rotation axes of planets. As I remember, Uranus has the rotation axis on the plane of its revolving around the Sun.
 
  • #34
gdpudasaini said:
Earth is rotating because the Earth was formed out of rotating cloud of gas before 5 billion years

this theory is known as the nebular hypothesis ; it was first put forward in substantial detail by the german philosopher immanuel kant in 1755 .

quote : “In the current notion … space is completely empty , or at least as good as empty ; thus [space] must have been … filled with sufficient capable [reads rotating] matter [before] to transfer the movement on all heavenly bodies found [in space] … and after the attraction had cleaned the said space and had gathered all extended matter in specific chunks [reads formation of planets] : thus the planets had from then on to continue their circling with the once expressed movement [my emphasis] in a space without friction free and unchanged .” (Kant's 1755 article available at www.mala.bc.ca)

comment : without taking anything away from this achievement , kant’s way of thinking suffers from metaphysical underpinnings prevalent in his day ; a process is understood by identifying a primordial origin which is then understood to explain the whole process , rather than studying the process in the entirety of its determinations (oops , old word) ;

example to clarify comment : if I throw a rubber ball against an outside wall , it jumps back at me without me thinking that at the moment of contact both the rubberball and the wall gave way ; it bounces back behind me and I leave it , months later I pick it up in the long grass and notice that the rubber ball , having been exposed to the sun’s heat has cracks in it ; it is somehow difficult for me to see that these cracks were already beginning to form that first time I threw the shiny ball against the wall ;

comment 2 : kants notion of space as empty , or as good as empty , and of movement in a space without friction can be concretised in the light of the work of Planck and Einstein ;

comment 3 : as a starting point : try an imagine that the planets on the one hand do not circle the sun on the other extreme , but rather , in the light of the material properties of the sun’s particles & waves being right around is , that the planets are circling inside the sun ; this not the way I would put it ,but , as starting point : try and imagine that we are still inside a rotating gas cloud

question : it has been said in the discussion here that the Earth is getting heavier because of its relation to the sun ; I would really be interested to know more about this aspect . . .
 
  • #35
Out of interest, is there anybody with considerable mass in space that does not rotate? Although there is no significant friction for space to slow bodies down i would have thought that bodies would start to slow down very, very, slightly over time as they would have slight friction form particles in space (solar wind). Or is that effect completely negligable?
 

1. How does the Earth rotate?

The Earth rotates on its axis, which is an imaginary line that runs from the North Pole to the South Pole. This rotation causes day and night as different parts of the Earth are facing towards or away from the sun.

2. What causes the Earth to revolve around the sun?

The Earth's revolution around the sun is caused by the gravitational pull of the sun. This force keeps the Earth in its orbit and determines its path around the sun.

3. How long does it take for the Earth to complete one rotation?

The Earth takes approximately 24 hours to complete one rotation on its axis. This is what gives us our 24-hour day and night cycle.

4. How long does it take for the Earth to complete one revolution around the sun?

The Earth takes approximately 365.24 days to complete one revolution around the sun. This is what gives us our calendar year.

5. Does the Earth's rotation and revolution affect our seasons?

Yes, the Earth's rotation and revolution play a significant role in determining our seasons. The tilt of the Earth's axis as it revolves around the sun causes different parts of the Earth to receive varying amounts of sunlight, resulting in the changing of seasons.

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