Inertia is related to MASS.
MASS is a property of matter.
Matter is the same on the Earth or on the Moon.
Therefore his inertia would be the same.
The astronaut's mass is the same on the moon but the gravitational force applied on the astronaut is weaker thus the astronaut appears to weigh less.
Less - since the gravity on the moon is about one-sixth of that on Earth.
The moon is considerably smaller than the Earth, both in diameter and in mass, and it therefore has a much weaker gravitational field. The weight of an astronaut on the moon is the result of the mass of the astronaut, which is not changed by going to the moon, and the gravitation field of the moon. A weaker gravitational field produces a lower weight.
The mass of an astronaut remains the same whether they are on the moon or on Earth. Mass is a measure of the amount of matter an object has and is independent of the gravitational force acting on it. However, the weight of an astronaut would be less on the moon compared to Earth due to the moon's weaker gravitational pull.
Because the gravity of the moon is less, and does not pull on things as strongly as the Earth does (moon is smaller)
The astronaut's mass is the same on the moon but the gravitational force applied on the astronaut is weaker thus the astronaut appears to weigh less.
The mass of the astronaut remains the same. However, the weight of the astronaut is less on the moon.
no more, inertia is proportional to mass
With less inertia.
i think the property of matter inertia is related to is its mass.......the more the mass the less will be the inertia.....
The mass is the quantity of matter in the body and therefore it is the same on the Moon as on Earth or anywhere else, the weight however, being the force executed by gravity on the mass, changes and therefore on the Moon it would be close to 6 times less than on Earth.
No you more inertia in outer space than anywhere else.
i think the property of matter inertia is related to is its mass.......the more the mass the less will be the inertia.....
It would weigh about one sixth (1/6) as much as it does on earth - as the moon's gravity is about one sixth as it is here.
I mean have More, Less,or the Same Intertia
Inertia can be defined as the relunctance of a body to acceleration. Therefore, the greater the inertia of a body, the less it will accelerate under a given force. Inertia is directly related to mass. The greater the mass, the greater the inertia.
An object with more momentum will have more inertia. Inertia is the ability to resist a change in force; objects with higher masses and higher speeds will have greater inertia. Speed * mass = momentum