Gravity always produces a pair of forces ... two of them.
The forces are opposite.
One force pulls 'A' toward 'B'.
The other force pulls 'B' toward 'A'.
For this question, let's say Astronaut Bob is standing on Mars.
There are two forces of gravity between the Astronaut and the planet.
One force pulls Bob toward Mars.
The other force pulls Mars toward Bob.
The force that pulls Bob toward Mars is what we call his "weight".
The other force ... the one that pulls Mars toward Bob ... is
the force that nobody ever talks about, but it's there.
The force that attracts you toward the Earth is
your "weight" on Earth.
The force that attracts the Earth toward you is
the Earth's weight on you.
The two forces are equal !
Go to take picture and post it so I can see the choices for the question it will be more easy for us to answer
If the object weighs 60N on Earth, then its mass is 6.12 kilograms.
If it weighs 60N on the moon, then its mass is 36.97 kilograms.
Whatever its mass is in one place, it has the same mass in any other place. Mass doesn't depend on location, but weight does.
That all depends on the planet toward which the mass is falling.
If this happens to be taking place near the Earth, then the object accelerates
at the rate of about 9.8 meters per second every second.
Furthermore, if there is truly no air resistance, then it makes no difference whether
the object is a feather, a mass of 30 kg, or a school-bus. All objects accelerate at
the same rate regardless of their mass.