yes, it is relevant to mass because Einstein was smart
Energy isn't "used up" but instead is converted into different forms like heat (thermal) and motion (kinetic) but when talking about an object we say the object has lost or gained energy.
It is closely to Newton's Third Law - since in an action and reaction pair, momentum "gained" by one object will be "lost" by the other.
no
Vaporization is an endothermic process. It takes energy to heat up material to the point that it vaporizes, so energy is gained by the material being vaporized and lost by the environment.
Potential energy always is converted to kinetic energy after an object at rest begins to move. Energy is never lost or gained, instead, it is converted back and forth. Hope that helps!
Energy isn't "used up" but instead is converted into different forms like heat (thermal) and motion (kinetic) but when talking about an object we say the object has lost or gained energy.
It is closely to Newton's Third Law - since in an action and reaction pair, momentum "gained" by one object will be "lost" by the other.
When the object is rolling it has kinetic energy or KE and when the object is at rest it has potential energy or U. In this case both are mechanical energies and mechanical energy is conserved within a system meaning it is only transferred not gained or lost.
no
give out energy
Vaporization is an endothermic process. It takes energy to heat up material to the point that it vaporizes, so energy is gained by the material being vaporized and lost by the environment.
Potential energy always is converted to kinetic energy after an object at rest begins to move. Energy is never lost or gained, instead, it is converted back and forth. Hope that helps!
90 % is lost.
The Law of Conservation of Energy states that energy is neither created nor destroyed but remains constant in a given system. Therefore, wouldn't calorimetry make use of it because the energy gained/lost by the water would cancel out the energy lost/gained by the substance and result in no change overall? The Law of Conservation of Energy states that energy is neither created nor destroyed but remains constant in a given system. Therefore, wouldn't calorimetry make use of it because the energy gained/lost by the water would cancel out the energy lost/gained by the substance and result in no change overall?
When a substance evaporates, it gains energy.
Some energy is changed to heat and lost. The main energy is still be converted to light beam.
Condensation is exothermic. Energy is released during condensation. Energy can not be "lost" but merely change from one form to another.