... the same as the mass of the same man anywhere else.
The mass of an object remains constant regardless of its location in the universe. Therefore, if a man has a mass of 55 kg on the Moon, he will also have a mass of 55 kg on Earth. However, his weight would differ due to the varying gravitational forces on the two celestial bodies. On Earth, the weight would be greater than on the Moon due to Earth's stronger gravity.
The weight of a person on Mars can be calculated using the formula: Weight on Mars = (Mass on Earth * gravity on Mars) / gravity on Earth. Mars's gravity is about 0.38 times that of Earth's. Therefore, a man with a mass of 80kg would weigh approximately 30.4kg on Mars.
No. The mass of the moon is a fraction of the earth's mass.
The mass on Venus compared to Earth is 80%.
No, they do not have the same mass. The moon has much less mass than Earth.
The same as on Earth or anywhere for that matter. Your mass stays the same no matter where you are.
The weight of a man with a mass of 55 kg on Earth would be approximately 539 Newtons. This is calculated by multiplying the mass (55 kg) by the acceleration due to gravity on Earth (9.81 m/s^2).
Nature - its a function of the size & mass of the Earth.
Nature - its a function of the size & mass of the Earth.
Neither. Mass is mass. Newtons is a force not a mass, 30 N is the same on Mars or anywhere else. It is 30 N
The weight of a person on Mars can be calculated using the formula: Weight on Mars = (Mass on Earth * gravity on Mars) / gravity on Earth. Mars's gravity is about 0.38 times that of Earth's. Therefore, a man with a mass of 80kg would weigh approximately 30.4kg on Mars.
If the Earth kept the same mass that it has now, but that same mass got packed into a sphere with 1/2 the present radius, then a man who weighs 100 pounds on Earth now would weigh 400 pounds on the half-sized Earth. If the outer shell of the Earth's mass were removed and discarded, leaving only the mass that's presently inside 1/2 of the Earth's radius, then a man who weighs 100 pounds on Earth now would weigh 50 pounds on the half-sized Earth. (Assuming that the Earth's mass/density is homogeneously distributed.) (This is all my opinion & I could be wrong.)
82 kg of mass weighs 803.6 newtons (180.78 pounds) on Earth.
The mass of the Earth is the reference point. All man-made generators are grounded to the Earth. Lightning just evens itself out.
The weight of the man can be calculated using the formula: weight = mass * acceleration due to gravity. On Earth, the acceleration due to gravity is approximately 9.81 m/s^2. Therefore, the man's weight would be about 646.8 N (Newtons).
1 earth mass = 81.78 moon mass (rounded)1 moon mass = 0.01223 earth mass = 1.223% of earth mass (rounded)The mass of the moon is only 1.2 percent of the mass of Earth.
F = m Am = F/A = 490/9.8 = 50 kg.By the way, the man also pulls the earth with a force of 490 newtons.