Mars is a lot less massive than Earth. Therefore gravity is less than you would experience on Earth. Gravity on Mars is about 38% that of what you experience on Earth. Therefore is you weigh 100kg on Earth, you would only weigh 38kg on Mars.
the gravity on Mars is 38% of the gravity on the Earth. that means if you weigh 100 kg on Earth, you would weigh a mere 38 kg on Mars.
Compared to Earth, yes. The surface gravity of Mars is 3/8 that of Earth.
The surface gravity on Mars is 3.711 m/s^2 or 0.379 g.
Stronger
Generally speaking, the bigger or more massive a planet it, the more gravity it has, since gravity and mass are related. the small planets such as Mars and Mercury have a weaker gravity, while the larger planets have a strong gravitational field.
no mars magnetic field is not strong because it is far away from the sun than earth.
The surface gravity on Mars is 3.711 m/s^2 or 0.379 g.
Surface gravity on mars is 0.376 compared to that of the earth.
Because of Earth's size, and considering it as one of the smallest planets, it has a weak gravity compared to the OTHER planets. Most planets have greater gravity because of their size. Earth has a stronger gravity compared to mars, mercury, and venus.
strong
its weak because it doesn't have any life on it.
The surface gravity on Mars is 3.711 m/s^2 or 0.379 g.
Gravity, electromagnetic, strong nuclear, weak nuclear.
yesThe gravity on mars is not as strong as it is on earth.
0.377 g
Stronger
Generally speaking, the bigger or more massive a planet it, the more gravity it has, since gravity and mass are related. the small planets such as Mars and Mercury have a weaker gravity, while the larger planets have a strong gravitational field.
Gravity, Weak, Electromagnetic, and Strong.
Yes, gravity does act on the Mars Rovers. On Mars, the gravity on the surface is 39% as strong as it is on Earth. This is also about the same amount on Mercury. A man weighing 200 pounds on Earth (or 440 kg) would weigh 78 pounds on Mars (171.6 kg). The six wheels the rovers have push the rovers around, they just don't have to work as hard to overcome the weak Martian gravity.