When steel wool is burned, it is merely an acceleration of the natural oxidation process that wool is constantly undergoing. The wool is not actually burning, it is actually rusting at a very fast pace, leaving behind iron oxide in its place. The additional mass comes from the addition of the oxygen atom bonding to the already present iron atoms.
Transformation of energy does follow the conservation of mass and energy. When a body gains potential energy, it loses kinetic energy and viceversa. Therefore total energy always remains constant.
Yes, you can't make mass appear where none was before. No exception has been found so far. In the Special Theory of Relativity, mass will increase with speed; but this is equivalent to the increase in kinetic energy, and if an object gains energy, another object will lose energy (and therefore mass). So, the conservation of mass (and of energy) is still true.
A net charge results when an atom gains or loses electrons. If it loses electrons, it gains a positive charge, if it gains them, it gains a net negative charge.
When an atom gains a positive charge it either gains a proton or gains an electron It could also lose one of them
An atom that gains three electrons will become an ion with a 3- charge.
When steel wool is burned, it is merely an acceleration of the natural oxidation process that wool is constantly undergoing. The wool is not actually burning, it is actually rusting at a very fast pace, leaving behind iron oxide in its place. The additional mass comes from the addition of the oxygen atom bonding to the already present iron atoms.
conservatism: expect losses and provides for it but dont provide for gains
An electrolyte is a substance than gains or loses electrons when dissolved in a solvent.
An explanation of an isoimmunity disorder is a condition where an individual gains immunity against the foreign cells of another individual of the same species.
Transformation of energy does follow the conservation of mass and energy. When a body gains potential energy, it loses kinetic energy and viceversa. Therefore total energy always remains constant.
asset, liability equity, investment by owners, distructions to onwners, comprehensive income, revenues, expenses, gains and lossesType your answer here...
According to Piaget's theory, a child gains an understanding of conservation around the age of 6-7 years old. Conservation involves the idea that certain properties of objects remain the same even when their appearance changes, such as volume or number.
Since the force is the same in both directions, whatever momentum one object gains, the other loses.Since the force is the same in both directions, whatever momentum one object gains, the other loses.Since the force is the same in both directions, whatever momentum one object gains, the other loses.Since the force is the same in both directions, whatever momentum one object gains, the other loses.
This is theorized to be partially the result of entrainment, which is the synchronization of movement with the rhythm of the music. Consistent practice leads to gains in motor skill ability and efficiency
A typhoon occurs when there is low barometric pressure over a warm part of the ocean. It gains wind speed and absorbs water until it reaches land.
The only explanation that can be provided are that they are being sold at zero cost. This explanation may not hold water, as these are expenses anticipating additional income ( in case of gifts) or expenses incurred for motivation ( consumption at home) anticipating further gains in productivity.
Yes, you can't make mass appear where none was before. No exception has been found so far. In the Special Theory of Relativity, mass will increase with speed; but this is equivalent to the increase in kinetic energy, and if an object gains energy, another object will lose energy (and therefore mass). So, the conservation of mass (and of energy) is still true.