If that "something" you are reffering to is matter, then no, this will not be possible. It is against the very fundamentals of physics...
Matter is something which has mass AND occupies space. If this were the case, that something would have mass and not occupy space.. its density would be round about infinity. A black hole is the closest to what you might be wanting to hear. It has a mass, and has a space that is no smaller than a teaspoon. Energy does not come in to this. The simple reason because it has its own quantity so we can not possibly imagine to find the *mass* and *space* of the form of energy, say heat. I hope this helped.
Sincerely, Kenny.
Yes. An isolated mass (one without any other masses near it, where "near" is defined generously) has no discernible weight, and an object in freefall has mass but no weight.Yes. An object in free fall, for example, has mass but no weight.
Weight is the force exerted on an object due to gravity. Without gravity, there would be no weight experienced by an object.
Weight is due to gravitational pull on the massive objects. If acceleration due to gravity is 0, then weight too becomes 0 In free space any massive object having mass does not have weight at all.
Setting the pan to zero before placing an object ensures that the weight displayed reflects only the weight of the object being added, without any additional weight or interference from the pan itself. This allows for accurate measurement of the object's weight.
Apparent Weight is the weight of an Object in a SPECIFIC Gravitational condition, such as on Earth. The same object on the Moon would have a different (Lesser) Apparent Weight. The only constant is the Mass of the Object in both of those locations.
No. Weight is the result of gravity acting on mass.
Yes. An isolated mass (one without any other masses near it, where "near" is defined generously) has no discernible weight, and an object in freefall has mass but no weight.Yes. An object in free fall, for example, has mass but no weight.
Weight is the force exerted on an object due to gravity. Without gravity, there would be no weight experienced by an object.
Weight is due to gravitational pull on the massive objects. If acceleration due to gravity is 0, then weight too becomes 0 In free space any massive object having mass does not have weight at all.
Of course. That's exactly the situation whenever an object sinks.
No. Mass is directly propotional to weight.
Setting the pan to zero before placing an object ensures that the weight displayed reflects only the weight of the object being added, without any additional weight or interference from the pan itself. This allows for accurate measurement of the object's weight.
In a gravity-less environment, an object would have no weight because there is no gravity pulling it down. Weight is the force of gravity acting on an object, so without gravity, there is no weight.
Length, Width, Height, Volume, Mass, Weight
When the object is in a normal every-day situation on Earth or another planet, that's the force we usually call the object's "weight".
Apparent Weight is the weight of an Object in a SPECIFIC Gravitational condition, such as on Earth. The same object on the Moon would have a different (Lesser) Apparent Weight. The only constant is the Mass of the Object in both of those locations.
an object remains stable at the point where its weight can be balanced out equally without distortions of any kind.