According to the law of conservation of mass-energy, matter and energy are always conserved in a closed system. This means that while matter and energy can change forms or be converted into one another, the total amount of matter and energy in the system remains constant.
According to the law of conservation of energy, energy cannot be created or destroyed, only transformed from one form to another. In isolated systems with no external influences, the total energy remains constant. So, yes, energy must always be conserved.
True. According to the law of conservation of mass-energy, matter and energy can neither be created nor destroyed, only transferred or transformed from one form to another. So, in any isolated system, the total amount of matter and energy remains constant.
yes, the different charges of the atoms and molecules are in constant motion except at absolute zero, where there is no movement at all and life cannot take place.
Constant temperature refers to a condition where the temperature of a system remains the same over time. In relation to the behavior of matter, when a system is at a constant temperature, the average kinetic energy of the particles in the system remains constant. This means that the particles move at a consistent speed and do not gain or lose energy, leading to stable and predictable behavior of the matter.
Basically, yes - except for small effects as a result of the Theory of Relativity: If you move an object up, its potential energy increases. As a result of its increase in energy, its mass will also increase. This increase is usually very slight.
as mass is the quantity of matter contained in a body
When matter changes state, the amount of mass and the amount of energy are always conserved. This means that the total mass and energy of the system remain constant throughout the phase change.
Particles of matter are always in constant motion.
The kinetic theory of matter states that matter is made up of tiny particles in constant motion. These particles have kinetic energy that increases with temperature, causing them to move faster.
According to the law of conservation of energy, energy cannot be created or destroyed, only transformed from one form to another. In isolated systems with no external influences, the total energy remains constant. So, yes, energy must always be conserved.
True. According to the law of conservation of mass-energy, matter and energy can neither be created nor destroyed, only transferred or transformed from one form to another. So, in any isolated system, the total amount of matter and energy remains constant.
yes, the different charges of the atoms and molecules are in constant motion except at absolute zero, where there is no movement at all and life cannot take place.
Since mother earth is alive ,and we have a constant supply of energy from the sun. Is it not possible that energy is being converted to mass by the living. We know that mass is a constant, and we also know that energy is being trapped and released. Organic matter is energy ,so is the organic matter growing?What is the relation between organic energy and our stars.
Conservation of energy means that the total energy of a system remains constant no matter what the internal changes are.
Constant temperature refers to a condition where the temperature of a system remains the same over time. In relation to the behavior of matter, when a system is at a constant temperature, the average kinetic energy of the particles in the system remains constant. This means that the particles move at a consistent speed and do not gain or lose energy, leading to stable and predictable behavior of the matter.
Basically, yes - except for small effects as a result of the Theory of Relativity: If you move an object up, its potential energy increases. As a result of its increase in energy, its mass will also increase. This increase is usually very slight.
The particle theory of matter states that matter is made up of very small particles that are always in constant motion.