Want this question answered?
That would be impossible as mass and energy are related.
Momentum is conserved when two objects collide in a closed system.
Energy isn't conserved in a process where there's a trade between mass and energy according to E = m c2 . When both mass and energy are tallied, the total is conserved.
Acceleration is not conserved. Energy can not be created nor destroyed. Mass and momentum are both conserved through a set time.
A tiny bit of the mass of each fissioned (or fused) atom is converted to energy. Energy is not conserver... Mass-Energy is conserved.
That would be impossible as mass and energy are related.
Momentum is conserved when two objects collide in a closed system.
Because energy can be converted into mass and vice versa. Thus, while the mass of a system is not conserved in a particular process, the mass and energy of a closed system is always conserved.
Energy isn't conserved in a process where there's a trade between mass and energy according to E = m c2 . When both mass and energy are tallied, the total is conserved.
An open system is a system which can be affected by external factors. Energy of the system can be altered, total momentum, charge, etc. In a closed system, energy, mass, momentum, charge and other properties are conserved.
During a chemical change,chemical energy may be changed to other forms of energy.other forms of energy may also be changed to a chemical energy.
Mass is conserved Total energy is conserved, although it may change form as things mix since most mixtures will have an enthalpy of mixing.
Acceleration is not conserved. Energy can not be created nor destroyed. Mass and momentum are both conserved through a set time.
None. E=Mc^2 simply extends conservation of mass to conservation of mass-energy by demonstrating that mass and energy are only different forms of the same thing. Although neither mass nor energy is conserved by itself together the total mass-energy is always conserved.
A tiny bit of the mass of each fissioned (or fused) atom is converted to energy. Energy is not conserver... Mass-Energy is conserved.
Mass (Matter) and Energy is conserved during a Chemical equation
None. There is no such thing as mass-to-energy conversion: both mass and energy are conserved! The total mass before and after a nuclear reaction is the same; so is the total energy. For more information, read the Wikipedia article on "binding energy".