What Would Happen if the Earth's Axis was Vertical to the Solar System?

In summary, removing seasons and having a perpetual spring would have a significant impact on the climate and environment. It could potentially lead to the extinction of many species and cause chaos in regional climates. However, in the long term, it could result in a generally habitable planet with a more stable climate. Without seasonal changes, it is likely that there would be another ice age and it would take billions of years for the Earth to warm up again. Changes in the Earth's axis and orbit would also affect the amount of sunlight received at different latitudes, potentially creating extreme temperature differences and making certain areas uninhabitable.
  • #1
Ulysees
516
0
... so that there are no seasons and it's spring forever?

It would make many species go extinct. But is it possibly a good thing in the longer term?

Imagine it's summer forever, like in Equador. Or spring forever, like in a flower conservatory.

Is there anything wrong with this, other than causing mass extinction of many species that fail to adapt?
 
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  • #2
I couldn't even begin to imagine the extent of the impact on the different regional climates. Most parts of the world presently experience seasonal weather variability. Removing that is bound to create chaos. In the long term though, I suppose we'd end up with a generally habitable planet, probably with a more stable climate than the one we have now.
 
  • #3
This would produce another ice age, and likely for the next billion years or so until the sun heats up enough to get us out of it.

Without seasons it won't get warm enough to melt snow above 60 degrees. This is a much bigger change than the Milankovich cycles, which produced ice ages during the last 5 million years.
 
  • #4
If Ever I Would Leave You

Music by Frederick Loewe and Words by Alan Jay Lerner
from the Broadway musical "Camelot"


If ever I would leave you, it wouldn't be in summer
Seeing you in summer, I never would go
Your hair streaked with sunlight, your lips red as flame
Your face with a luster that puts gold to shame

But if I'd ever leave you, it couldn't be in autumn
How I'd leave in autumn, I never will know
I've seen how you sparkle when fall nips the air
I know you in autumn and I must be there

And could I leave you running merrily through the snow
Or on a wintry evening when you catch the fire's glow

If ever I would leave you, how could it be in springtime
Knowing how in spring I'm bewitched by you so
Oh, no, not in springtime, summer, winter, or fall
No never could I leave you at all
 
  • #5
> it won't get warm enough to melt snow above 60 degrees

How did you work out the 60 degrees?

And the billion years? :wink:

Sorry but you're not talking to people who are in the dark about physics. We appreciate logical development of argument, a line of thought that leads to this result or another, or references. Otherwise it's not interesting.

Cause anybody can pretend to be an expert and make up numbers.
 
  • #6
It would be summer in the equador, sprint in the tropics, autumn in a bit farther and winter near the poles.
 
  • #7
Ulysees said:
> it won't get warm enough to melt snow above 60 degrees

How did you work out the 60 degrees?

And the billion years? :wink:

Sorry but you're not talking to people who are in the dark about physics. We appreciate logical development of argument, a line of thought that leads to this result or another, or references. Otherwise it's not interesting.

Cause anybody can pretend to be an expert and make up numbers.

Because of the 23.5 obliquity of the earth-axis, the poles get much more sunlight than they would have without it and the tropics get less.

This is solar power received at the top of the atmosphere as a fraction of
the solar constant (1368 W/m^2)

The first column is for an Earth with the poles straight up (or the current earth
at 21 march/september). The second column is the insolation of the current earth
averaged over a year.

obl obl
lat. 0 23,5
0 0.3183 0.3050
10 0.3134 0.3008
20 0.2991 0.2883
30 0.2756 0.2681
40 0.2438 0.2411
50 0.2046 0.2088
60 0.1591 0.1739
70 0.1088 0.1453
80 0.0552 0.1321
90 0 0.1281

In the current climate there is not enough sun to melt the snow in alaska, northern Canada, and most of siberia at 21 march, or melt ice in the arctic. If the sun never gets higher, this means the snow won't disappear, and sea ice won't melt. snow and ice reflect more sunlight than water or soil, so it will get even colder and the snow won't melt in a larger area. These changes in insolation are much larger than the changes in insolations caused by the variations in eccentricity of the Earth orbit, precession of the Earth axis and obliquity that are currently believed to trigger ice ages.
 
  • #8
So with a lot more water locked up in ice the sea level would fall creating more land to live on in the temperate zone. I guess it would be too hot to live at the equator?
 

1. How would changing the axis of the earth affect its orbit around the sun?

The axis of the earth refers to the imaginary line around which the earth rotates. If we were to change the axis to be vertical to the solar system, the earth's orbit around the sun would also change. The earth's rotation and tilt on its axis are what cause the change in seasons, so changing the axis would drastically alter the seasons and climate patterns on earth.

2. What would happen to the length of days and nights if the axis of the earth were vertical to the solar system?

If the axis of the earth were vertical to the solar system, the length of days and nights would also change. Currently, the earth's axis is tilted at about 23.5 degrees, which is what causes the variation in daylight hours throughout the year. With a vertical axis, there would be equal amounts of daylight and darkness all year round.

3. Would the change in axis affect the earth's magnetic field?

Yes, changing the axis of the earth would have an impact on the earth's magnetic field. The magnetic field is generated by the earth's molten core, which is influenced by the earth's rotation and tilt on its axis. A change in the axis would likely result in changes to the magnetic field, which could have consequences for navigation and wildlife that rely on the magnetic field for migration.

4. How would the change in the earth's axis affect the earth's gravitational pull?

The gravitational pull of the earth is determined by its mass and distance from other objects in space. Changing the axis of the earth would not have a significant impact on its gravitational pull. However, it could affect the distribution of mass on the earth's surface, which could potentially have small effects on gravity in certain areas.

5. What would be the potential consequences of changing the axis of the earth to be vertical to the solar system?

The consequences of changing the axis of the earth would be far-reaching and significant. As mentioned earlier, it would drastically alter the seasons and climate patterns on earth. This could have severe impacts on agriculture, wildlife, and human settlements. It could also potentially disrupt the earth's magnetic field and could even affect the earth's rotation and tilt, leading to unpredictable changes in the earth's environment and ecosystem.

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