Yes. A bullet traveling with a sufficient speed would still penetrate something even if it is in space. Since air resistances does not play a role in space one might make the case that bullets are even more dangerous in space.
Yes. A bullet has mass and is therefore affect by gravity, whether it is in space or not.
The mass is basically NOT affected by gravity. The weight IS affected, and it is equal to mass x gravity.
No, only weight is affected by gravity: attraction, force, acceleration.
Mass is not affected by gravity. Weight is the result of the force of gravity acting on mass.
Gravity adds 32.1 feet per second to the bullet's downward velocity every second after the shot is fired.
Though weight is effected by gravity, mass is not affected by gravity.Actually mass is affected by gravity. Although the amount of mass is not affected by gravity, mass itself is.
Yes, there is an object affected by only gravity. Stars and other floating space debris are only affected by gravity in space, as long as the objects do not touch each other.
Such an object is said to be in free fall.
they can be yes.
If by "gravity neutral" you mean "not affected by gravity" the answer is none. Gravity is an attribute of curved space-time and thus everything in space-time is affected. Even massless photons curve in the presence of massive bodies.
Not only in space - gravity is universal. The force of gravity is affected by the distance, and by the masses involved.
Anything that isn't affected by the Sun's gravity will not revolve it. Almost anything outside of our solar system will not be affected by the Sun's gravity. But that's not to say that they aren't being affected by another star's gravity.
It would just keep going forever. This is because of the no gravity/friction is space
The ball will not be affected by drag. Only gravity will affect its trajectory.
Gravity might have a hold on you or you will grow a couple of inches and lose weight. It depends on how long you are staying in space.
Humans may get weak in a lack of gravity situation, due to the lack of use of certain muscles.
Gravity.
The mass is basically NOT affected by gravity. The weight IS affected, and it is equal to mass x gravity.