Equatorial surface gravity: 0.58 m/s²
(0.059 gees) aka. just over 1\2 of our's
You weigh more on Earth than on Pluto because of the difference in gravitational pull between the two. Earth's gravitational force is much stronger than Pluto's, which causes you to weigh more on Earth.
This distance varies every day as Saturn and Pluto take up different positions in their respective orbits.
Two main differences between Pluto and it's gas giant neighbours are:1. Size - The gas planets (Jupiter, Saturn, Neptune, Uranus) are huge compared to Pluto. Neptune, the smallest of the gas giants, has a diameter that is over 20x that of Pluto, and a mass that is more than 7786x that of Pluto. In fact, compared to Earth, Pluto is tiny, with a diameter that is less than 0.02% that of Earth and a mass that is less than 19% that of Earth!2. Composition - The gas planets are, as their name suggests, composed of gas. Pluto, on the other hand, is rocky. Although the exact composition of Pluto has yet to be verified, it is estimated that it is made up of 50-70% rock and 30-50% ice.
Pluto is technically an asteroid, but it's unusual in that it is ball-shaped. most asteroids are too small to form a ball shape.
One major difference is their size. Pluto is significantly smaller than the solid inner planets like Earth, Mars, Venus, and Mercury. Another difference is their composition. Inner planets are primarily composed of rock and metal, while Pluto is composed mostly of ice and rock. Additionally, inner planets have clear and defined orbits around the Sun, while Pluto's orbit is more eccentric and tilted.
at pluto -- 0.61m/s2 at earth -- 9.8m/s2 mean u can have much high compared to earth
You need two objects between which you can have differences!
You weigh more on Earth than on Pluto because of the difference in gravitational pull between the two. Earth's gravitational force is much stronger than Pluto's, which causes you to weigh more on Earth.
This distance varies every day as Saturn and Pluto take up different positions in their respective orbits.
Two main differences between Pluto and it's gas giant neighbours are:1. Size - The gas planets (Jupiter, Saturn, Neptune, Uranus) are huge compared to Pluto. Neptune, the smallest of the gas giants, has a diameter that is over 20x that of Pluto, and a mass that is more than 7786x that of Pluto. In fact, compared to Earth, Pluto is tiny, with a diameter that is less than 0.02% that of Earth and a mass that is less than 19% that of Earth!2. Composition - The gas planets are, as their name suggests, composed of gas. Pluto, on the other hand, is rocky. Although the exact composition of Pluto has yet to be verified, it is estimated that it is made up of 50-70% rock and 30-50% ice.
About 40 AU.
If Pluto's orbit were on the same plane as Earth's orbit, if Earth were directly between the sun and Pluto, if Earth were at its aphelion (the point in its orbit where it's farthest from the sun), and if Pluto were at its perihelion (the point in its orbit closest to the sun), on the scale where the diameter of Earth is 5 mm, the distance from Earth to Pluto is about 1.681 km (a little over a mile).
4,507,000,000 miles.
Pluto is technically an asteroid, but it's unusual in that it is ball-shaped. most asteroids are too small to form a ball shape.
One major difference is their size. Pluto is significantly smaller than the solid inner planets like Earth, Mars, Venus, and Mercury. Another difference is their composition. Inner planets are primarily composed of rock and metal, while Pluto is composed mostly of ice and rock. Additionally, inner planets have clear and defined orbits around the Sun, while Pluto's orbit is more eccentric and tilted.
Yes, but it will be much dimmer than it is from Earth. Pluto varies between about 30 to 50 times farther away from the Sun than the Earth is, which would make the Sun between 900 and 2500 times dimmer on Pluto.
The magnitude of the gravitational force between the sun and Earth would decrease if Earth was placed in Pluto's orbit. This is because the force of gravity between two objects is inversely proportional to the square of the distance between them, so as Earth moved farther away from the sun (as in Pluto's orbit), the gravitational force would weaken.