Explanation: On sol 1943 of its journey of exploration across the surface of Mars, the Curiosity Rover recorded this selfie at the south rim of Vera Rubin Ridge. Of course a sol is a Martian solar day, about 40 minutes longer than an Earth day. Curiosity's sol 1943 corresponds to Earth date January 23, 2018. Also composed as an interactive 360 degree VR, the mosaicked panorama combines 61 exposures taken by the car-sized rover's Mars Hand Lens Imager (MAHLI). Frames containing the imager's arm have been edited out while the extended background used was taken by the rover's Mastcam on sol 1903. At the top of the rover's mast, sitting above the Mastcam, the laser-firing ChemCam housing blocks out the distant peak of Mount Sharp.
Mountainjim62 wrote:Seeing the Sun in the 360 degree view made me wonder, are there any pictures of Mars moon taken from Mars?
Yes. Daytime and nighttime pictures of both, as well as a solar transit by Deimos.
Thank you. Just check a few out. Very cool. I still have a copy of Life magazine from May 1, 1991 on which the cover has a picture of Mars and says "Our Next Home". Fascinating to see where we are now compared to the Article written nearly 30 years ago.
Seeing that Earth's moon is slowing the rotation of Earth, and Mars' moon is not (much?), how long will it be before the two planet's days are the same length?
FLPhotoCatcher wrote:Seeing that Earth's moon is slowing the rotation of Earth, and Mars' moon is not (much?), how long will it be before the two planet's days are the same length?
I hate "Story Problems".... I was really bad at them...
FLPhotoCatcher wrote:
Seeing that Earth's moon is slowing the rotation of Earth, and Mars' moon is not (much?),
how long will it be before the two planet's days are the same length?
About 132 million years.
Phobos will be destroyed (i.e., turned into a ring) in ~40 million years.
FLPhotoCatcher wrote:
Seeing that Earth's moon is slowing the rotation of Earth, and Mars' moon is not (much?),
how long will it be before the two planet's days are the same length?
About 132 million years.
Phobos will be destroyed (i.e., turned into a ring) in ~40 million years.
I'm putting my money on 104 million years. Care to make a small wager on it?
FLPhotoCatcher wrote:
Seeing that Earth's moon is slowing the rotation of Earth, and Mars' moon is not (much?),
how long will it be before the two planet's days are the same length?
About 132 million years.
Phobos will be destroyed (i.e., turned into a ring) in ~40 million years.
I'm putting my money on 104 million years. Care to make a small wager on it?
Assuming man ain't going to be around for another 6 million years to muck up the planet...sure you're on, Mark
neufer wrote:
The day has lengthened ~126 minutes in 620 million years.
Ergo: the day should lengthened ~37.37 minutes in 184 million years
(or longer as the receding moon's effect drops over time).
It's a reasonable estimate, but it could be quite a bit off. The geological record also suggests that the rate has been very nonuniform, possibly remaining unchanged for millions of years at a time and undergoing rapid shifts at other times, subject perhaps to changes in crust position and glaciation.
Chris
*****************************************
Chris L Peterson
Cloudbait Observatory https://www.cloudbait.com
neufer wrote:
The day has lengthened ~126 minutes in 620 million years.
Ergo: the day should lengthened ~37.37 minutes in 184 million years
(or longer as the receding moon's effect drops over time).
It's a reasonable estimate, but it could be quite a bit off. The geological record also suggests that the rate has been very nonuniform, possibly remaining unchanged for millions of years at a time and undergoing rapid shifts at other times, subject perhaps to changes in crust position and glaciation.
You two can out-reason me on orbital mechanics any day. But with so many unknowns, I'll stand by my guess for now.
If you give us 100 million years, humanity might get into the act. Every time Elon fires another rocket into a prograde orbit (especially a BFR) ...
And what about those gravity assists towards outer planets? Don't those slow down the Earth's rotation ?
With any luck, we'll be transporting some material to the Moon (but material moved the other way would favor the longer estimate).
Of course asteroid mining is just going to screw everything up.
I know -- you'll probably prove mathematically that it would take 50,000 rockets to have a measurable effect.
Anyway, if I'm way off, then in about 110 million years, when Earth's day is still not quite as long as the Martian day, I'll gladly pay up.
MarkBour wrote:
Anyway, if I'm way off, then in about 110 million years, when Earth's day is still not quite as long as the Martian day, I'll gladly pay up.
MarkBour wrote:
Anyway, if I'm way off, then in about 110 million years, when Earth's day is still not quite as long as the Martian day, I'll gladly pay up.
I hope that you will take inflation into account.
Perhaps ... I was thinking to make it a fixed amount of bitcoin.