Professor John Chiang of UC Berkeley explains the impact of Earth's axial tilt and orbital eccentricity on global climate. He highlights their influen ...

Following is a transcript of the video. Early in the history of our solar system, something mysteriously knocked Earth slightly off its axis. So today we tilt at 23.5 degrees. But what would ...

So, the seasons occur because the Earth's axis is tilted and it goes around the sun - winter in the north, summer in the north. And the days, because the Earth spins on its axis. It goes around ...

The seasons are linked to the 23° tilt of the Earth’s axis. There is a time-lapse animation of the Earth throughout the year showing the northern hemisphere pointing towards the sun during its ...

These images were taken with the NOAA's GOES-East satellite, which orbits more than 22,000 miles (35,000 kilometers) above Earth's equator ... 23.5 degrees on its axis, which impacts the lengths ...

Earth rotates on its axis every 23.9 hours ... degrees away from the plane of Earth's orbit around the sun, giving us seasons. Whichever hemisphere is tilted closer to the sun experiences summer ...

The Earth has always had a tilt to its axis of 23.5 degrees, which is why we have seasons and daylight saving time. The pumped groundwater eventually makes its way to the oceans and has ...

The impact on the oceans if the Moon disappeared would be much smaller tides, about one-third the size of what they are now.

The above image shows a 20-meter-long chunk of frozen carbon dioxide falling off a cliff. Rising temperatures during the ...

A super-Earth planet that dips in and out of its star's habitable zone has been discovered just 19.7 light-years away.

Uranus has the craziest tilt in your Solar System. Its tilt is about ninety-eight degrees. That means its north pole is ...

Mars rotates on its axis every 24.6 Earth hours ... which helps give Mars seasons similar to those on Earth. Whichever hemisphere is tilted closer to the sun experiences spring and summer ...