An object is transported from Earth to deep space, far from any stars or planets. What happens to the mass and weight of the object?
Both the weight and mass of the object change.
Neither the weight nor the mass of the object change.
The weight of the object changes, the mass stays the same
The mass of the object changes, the weight stays the same
two strong permanent magnets are placed one inch apart. which two fundamental forces will most affect them.
Weak and gravity
Strong and electromagnetic
Gravity and strong
Electromagnetic and gravity
mass is m, kilograms, does not depend on local gravity.
weight is m g, Newtons, depends on local gravity.
Which do you think? (I assume they are on earth :)
When an object is transported from Earth to deep space, far from any stars or planets, the mass of the object remains the same. Mass is a fundamental property of an object and does not depend on the location. Therefore, the object's mass does not change.
However, the weight of the object will change in this scenario. Weight is the force exerted on an object due to gravity, and it depends on the mass of the object and the strength of the gravitational field. In deep space, where there are no stars or planets nearby, the gravitational field is significantly weaker or negligible. As a result, the object will experience a much weaker gravitational force than it did on Earth.
Since weight is directly proportional to the gravitational force acting on an object, the weight of the object will decrease significantly or become virtually zero in deep space. Therefore, the weight of the object changes, while its mass remains the same.