Because your 'mass' is the amount of matter/stuff/substance/material that you're
made of. Just like the amount of money in your pocket, the simple act of moving
from one place to another doesn't have any effect on it.
No. Mass will be the same wherever an object is.
If you double the mass of the block but keep the rocket's force the same, the acceleration of the block would decrease. This is because acceleration is inversely proportional to mass according to Newton's second law of motion (F = ma). With twice the mass, the same force will result in a lower acceleration.
No, two objects with the same mass can have different volumes if they have different densities. Density is the mass of an object per unit volume. For example, a bar of gold and a bar of aluminum can have the same mass but different volumes due to their different densities.
mass. Momentum is the product of an object's mass and its velocity, so if two objects have the same velocity and mass, then their momentum will be the same.
Wherever the objects happen to be, the one with the greatest mass attracts any nearby mass, such as the Earth, with the greatest force, and it is attracted to the other mass, such as the Earth, with equal force.
No. your mass is the same wherever you are.
it would be the same wherever you are
Your mass is the same wherever you are, on Earth, on Saturn, on the Sun. Your weight changes if you are on a different planet.
Mass is constant. You have the same amount of mass wherever you are in the Universe. Weight is the affect of gravity acting on your mass. So you weigh 1/6th as much on the Moon because there is less gravity there but you have the same amount of mass as you do on Earth.
because the force the drives it
No. Mass will be the same wherever an object is.
No, mass is the same for an object wherever it goes. What changes is its weight, which is the force of attraction acting on it through proximity to a massive object.
1 kilo is normally used to refer to 1 kilogram. This is a measure of mass and is NOT the same as weight. A mass of 1 kg is a mass of 1 kg - wherever it is.
yes
Your weight on the moon would be about 16.5% of your weight on Earth due to the moon's weaker gravitational pull. However, your mass would remain the same regardless of location, as mass is a measure of the amount of matter in an object.
The mass of an object is the object's mass. It makes no difference where the object is, what the temperature is, whether it's night or day, on Earth or the far side of the moon, in the northern or western hemisphere, at the bottom of the deepest ocean or on top of the highest mountain, asleep or awake. Whatever mass it had yesterday, wherever it was, is the same mass it has today, wherever it is. Have I made myself clear ?
No. Mass and Energy are equivalent (E=mc2). The are different manifestations of one and the same thing.