No, because heating matter dose not effect its mass.
Mass is defined as the amount of matter in an object. As mass increases, inertia increases because heavier objects have more of a tendency to stay at their initial state than lighter objects.
In almost all cases, the matter expands. Density = mass / volume. When volume increases, the density decreases, because the mass is fixed.
If your mass increases, your weight also increases.
When the mass increases then the force also increases
No, because heating matter does not effect the mass.
No, because heating matter dose not effect its mass.
Mass of any chemical, in chemistry, is constant, no matter what you do to it.
Neither - heating has no effect on mass.
Neither - heating has no effect on mass.
no, heating matter does not affect mass.
Since Density=Volume/Mass, and the mass increases as the volume increases they will always have the same density no matter how big it is.
When any object with mass moves, no matter at what speed, its mass increases. The faster it moves, the faster its mass increases. And the closer to the speed of light it moves, the closer to infinity its mass grows.
In almost all cases, the matter expands. Density = mass / volume. When volume increases, the density decreases, because the mass is fixed.
Mass is defined as the amount of matter in an object. As mass increases, inertia increases because heavier objects have more of a tendency to stay at their initial state than lighter objects.
the powder may have absorbed moisture from the surrounding environment during the heating process.
Heating a metal in a crucible can cause the metal to react with the surrounding gases. thus, when weighing the metal after heating, the mass increases because of the addition of the gaseous elements