The answer will depend on Fido's species.
To determine Fido's weight on Mars, we need to know his weight on Earth. If Fido weighs 60 pounds on Earth, his weight on Mars would be around 20 pounds, as Mars has approximately one-third of Earth's gravity.
Of the planets in our solar system, Mars has the lowest surface gravity of around 38% of earths - over one third. This comes closest to the 25%. We then have moons and dwarf planets, but these have much lower surface gravities.
I've heard that on Mars, a person's apparent weight would be about one-third of their weight on Earth. So a 180-lbs man would feel as though they are only 60-lbs. Or a 90kg man would feel like they weighed only 30kg. On the Moon, this is even less, at one-sixth that of Earth. So the 180lbs man would feel like they weighed 30lbs. The 90kg person would feel like they weighed 15kg.
A person would weigh more on Saturn than they do on Earth due to the lack of gravity on Saturn. This is true for every planet in the solar system. For example, on Saturn an adult weighing 150 pounds would weigh 159.63 pounds on Saturn.
The gravity on the surface of Mars is approximately one third of that on the surface of Earth. Comment: I always say "about 38%".
It can be said to have no weight, as its weight could only be expressed if it were stationary in the Earth's gravitational field. However its mass (the matter it contains) is about 7.35x1022 kg. This is about 1/80th the mass of the Earth.There is a large distinction between weight and mass. Mass has to do with the amount of matter is in some object, and determines how hard it is to push something around. Weight is how big the force of gravity is that is acting on some object. An object has the same mass no-matter where it is, but its weight depends on being close to the Earth or some other planet. For example, if you were out in space, far away from any planets, you would have no weight since there is no gravity, but your mass would still be the same as it is here on Earth.So, it makes more sense to talk about the mass of the moon than its weight.Relative Weight of ObjectsIt is usually not appropriate to talk about the weight of astronomical objects because the force of gravity varies, depending on the mass of a pair of objects, and their distance from one another. For example, if Earth attracts a table with a force of 100N, then the table attracts the Earth with the same force of 100N (Newton's Third Law), so the weight of Earth - on that table - is 100N. If you took the table millions of miles from Earth, that weight (the table or the Earth) would be much smaller, because the effect of Earth's gravity would be much less.Instead of asking about the weight of objects, compare the objects' masses - those don't change, or hardly change.
Because the acceleration of gravity on the surface of any given body depends on the mass of the body and its radius ... the distance of the surface from the center. Mars' mass ... about 11% of Earth's ... and Mars' radius ... about 53% of Earth's ... combine to produce about 38% of Earth's gravitational acceleration at the surface of Mars.
They're not. * Earth has a gravity of 9.780327 m/s2 * Mars has a gravity of 3.69 m/s² They're similar in that they both obey the Law of Universal Gravitation, but as you can see the gravity of Mars is only about a third that of Earth.
Of the planets in our solar system, Mars has the lowest surface gravity of around 38% of earths - over one third. This comes closest to the 25%. We then have moons and dwarf planets, but these have much lower surface gravities.
The magnitude of the force is exactly the same (Newton's Third Law).
The magnitude of the force is exactly the same (Newton's Third Law).
The magnitude of the force is exactly the same (Newton's Third Law).
The third layer of Earth's atmosphere is called the Mesosphere.
Mesosphere.
check google:P
The third layer of the earth's atmosphere is the Mesosphere, where meteors can be found.
The third layer of Earth's atmosphere is called the Mesosphere.
There is gravity on the moon but it is a third of planet earth