Churchill Publish time 29-1-2021 09:27 PM

How strong is gravity on other planets?

https://phys.org/news/2016-01-strong-gravity-planets.html

Gravity is a fundamental force of physics, one which we Earthlings tend to take for granted. You can't really blame us. Having evolved over the course of billions of years in Earth's environment, we are used to living with the pull of a steady 1 g (or 9.8 m/s2). However, for those who have gone into space or set foot on the Moon, gravity is a very tenuous and precious thing.


Basically, gravity is dependent on mass, where all things – from stars, planets, and galaxies to light and sub-atomic particles – are attracted to one another. Depending on the size, mass and density of the object, the gravitational force it exerts varies. And when it comes to the planets of our solar system, which vary in size and mass, the strength of gravity on their surfaces varies considerably.

For example, Earth's gravity, as already noted, is equivalent to 9.80665 m/s2 (or 32.174 ft/s2). This means that an object, if held above the ground and let go, will accelerate towards the surface at a speed of about 9.8 meters for every second of free fall. This is the standard for measuring gravity on other planets, which is also expressed as a single g.

In accordance with Isaac Newton's law of universal gravitation, the gravitational attraction between two bodies can be expressed mathematically as F = G (m1m2/r2) – where F is the force, m1 and m2 are the masses of the objects interacting, r is the distance between the centers of the masses and G is the gravitational constant (6.674×10-11 N m2/kg2 ).


Based on their sizes and masses, the gravity on another planet is often expressed in terms of g units as well as in terms of the rate of free-fall acceleration. So how exactly do the planets of our solar system stack up in terms of their gravity compared to Earth? Like this:

Gravity on Mercury:

With a mean radius of about 2,440 km and a mass of 3.30 × 1023 kg, Mercury is approximately 0.383 times the size of Earth and only 0.055 as massive. This makes Mercury the smallest and least massive planet in the solar system. However, thanks to its high density – a robust 5.427 g/cm3, which is just slightly lower than Earth's 5.514 g/cm3 – Mercury has a surface gravity of 3.7 m/s2, which is the equivalent of 0.38 g.


Gravity on Venus:



Venus is similar to Earth in many ways, which is why it is often referred to as "Earth's twin". With a mean radius of 4.6023×108 km2, a mass of 4.8675×1024 kg, and a density of 5.243 g/cm3, Venus is equivalent in size to 0.9499 Earths, 0.815 times as massive, and roughly 0.95 times as dense. Hence, it is no surprise why the gravity on Venus is very close to that of Earth's – 8.87 m/s2, or 0.904 g.

Gravity on the Moon:

This is one astronomical body where human beings have been able to test out the affects of diminished gravity in person. Calculations based on its mean radius (1737 km), mass (7.3477 x 1022 kg), and density (3.3464 g/cm3), and the missions conducted by the Apollo astronauts, the surface gravity on the Moon has been measured to be 1.62 m/s2 , or 0.1654 g.


Gravity on Mars:

Mars is also similar to Earth in many key respects. However, when it comes to size, mass and density, Mars is comparatively small. In fact, its mean radius of 3.389 km is the equivalent of roughly 0.53 Earths, while its mass (6.4171×1023 kg) is just 0.107 Earths. Its density, meanwhile, is about 0.71 of Earths, coming in at a relatively modest 3.93 g/cm3. Because of this, Mars has 0.38 times the gravity of Earth, which works out to 3.711 m/s2.

Gravity on Jupiter:

Jupiter is the largest and most massive planet in the solar system. Its mean radius, at 69,911 ± 6 km, makes it 10.97 the times the size of Earth, while its mass (1.8986×1027 kg) is the equivalent of 317.8 Earths. But being a gas giant, Jupiter is naturally less dense than Earth and other terrestrial planets, with a mean density of 1.326 g/cm3.

Gravity anomalies on Mercury—mass concentrations (red) suggest subsurface structure and evolution. Credit: NASA/Goddard Space Flight Center/Johns Hopkins University/Carnegie Institution of Washington
What's more, being a gas giant, Jupiter does not have a true surface. If one were to stand on it, they would simply sink until they eventually arrived at its (theorized) solid core. As a result, Jupiter's surface gravity (which is defined as the force of gravity at its cloud tops), is 24.79 m/s, or 2.528 g.

Gravity on Saturn:

Like Jupiter, Saturn is a huge gas giant that is significantly larger and more massive than Earth, but far less dense. In short, its mean radius is 58232±6 km (9.13 Earths), its mass is 5.6846×1026 kg (95.15 times as massive), and has a density of 0.687 g/cm3. As a result, its surface gravity (again, measured from the top of its clouds) is just slightly more than Earth's, which is 10.44 m/s2 (or 1.065 g).

Mars Gravity Model 2011, showing variations of gravity accelerations over Mars’s surface. Credit: geodesy.curtin.edu.au
Gravity on Uranus:

With a mean radius of 25,360 km and a mass of 8.68 × 1025 kg, Uranus is approximately 4 times the size of Earth and 14.536 times as massive. However, as a gas giant, its density (1.27 g/cm3) is significantly lower than Earth's. Hence, why its surface gravity (measured from its cloud tops) is slightly weaker than Earth's – 8.69 m/s2, or 0.886 g.

Gravity on Neptune:

With a mean radius of 24,622 ± 19 km and a mass of 1.0243×1026 kg, Neptune is the fourth largest planet in the solar system. All told, it is 3.86 times the size of Earth and 17 times as massive. But, being a gas giant, it has a low density of 1.638 g/cm3. All of this works out to a surface gravity of 11.15 m/s2 (or 1.14 g), which again is measured at Neptune's cloud tops.

All in all, gravity runs the gamut here in the solar system, ranging from 0.38 g on Mercury and Mars to a powerful 2.528 g atop Jupiter's clouds. And on the Moon, were astronauts have ventured, it is a very mild 0.1654 g, which allowed from some fun experiments in near-weightlessness!

Understanding the effect of zero-gravity on the human body has been essential to space travel, especially where long-duration missions in orbit and to the International Space Station have been concerned. In the coming decades, knowing how to simulate it will come in handy when we start sending astronauts on deep space missions.

And of course, knowing just how strong it is on other planets will be essential to manned missions (and perhaps even settlement) there. Given that humanity evolved in a 1 g environment, knowing how we will fare on planets that have only a fraction of the gravity could mean the difference between life and death.


Churchill Publish time 29-1-2021 09:28 PM

https://i.imgur.com/CAG9P8G.jpg

@FOTHER-MUCKER

escortsmodel Publish time 2-4-2021 06:43 PM

Once you pick out Bengali call girls services in Kolkata, you will love them over and over. Kolkata is famous for its meals and its subculture. You will get numerous vegs and nonveg restaurants inside Kolkata. Escorts Kolkata You can also select one-of-a-kind styles of speedy food with your companion. Another gain of hiring a nearby woman is, she can assist you to explore Kolkata city without difficulty. You will revel in yourself along with her every second. Spend a few great time in a restaurant or swimming pool or some others.

escortsmodel Publish time 2-4-2021 06:45 PM

Once you pick out Bengali call girls services in Kolkata, you will love them over and over. Kolkata is famous for its meals and its subculture. You will get numerous vegs and nonveg restaurants inside Kolkata. Escorts Kolkata You can also select one-of-a-kind styles of speedy food with your companion. Another gain of hiring a nearby woman is, she can assist you to explore Kolkata city without difficulty. You will revel in yourself along with her every second. Spend a few great time in a restaurant or swimming pool or some others.

mymediamarket Publish time 17-5-2021 09:34 PM

For this, an awesome advertising package deal should consist of content material writing and programs. The content created have to be of high first-rate and it should be engaging. There need to be a risk for the content to develop with time.social media marketing companies in bangaloreBesides, your content material can by no means rule without being search engine optimization pleasant. So, choose the enterprise which could offer you with the most interactive and expert content. Enquire the marketing crew and the professionalism of the writers.

analia Publish time 24-9-2021 02:21 PM

http://www.deutschlandsupplements.de/steelovil-erfahrungen/
https://www.seoptimer.com/blog/wp-content/uploads/2020/02/image4-1.jpg
http://www.deutschlandsupplements.de/steelovil-erfahrungen/

http://tiny.cc/06nhuz
http://tiny.cc/16nhuz
http://tiny.cc/36nhuz

analia Publish time 24-9-2021 02:22 PM

http://www.deutschlandsupplements.de/steelovil-erfahrungen/
https://www.seoptimer.com/blog/wp-content/uploads/2020/02/image4-1.jpg
http://www.deutschlandsupplements.de/steelovil-erfahrungen/

http://tiny.cc/9seauz
http://tiny.cc/bseauz
http://tiny.cc/dseauz[

analia Publish time 24-9-2021 02:22 PM

http://www.deutschlandsupplements.de/steelovil-erfahrungen/
https://www.seoptimer.com/blog/wp-content/uploads/2020/02/image4-1.jpg
http://www.deutschlandsupplements.de/steelovil-erfahrungen/

http://tiny.cc/4seauz
http://tiny.cc/5seauz
http://tiny.cc/7seauz
Pages: [1]
View full version: How strong is gravity on other planets?


ADVERTISEMENT