what is the main difference between conservation of energy and conservation of charge?
Answers
Explanation:
In physics, the term conservation refers to something which doesn't change. This means that the variable in an equation which represents a conserved quantity is constant over time. It has the same value both before and after an event.
There are many conserved quantities in physics. They are often remarkably useful for making predictions in what would otherwise be very complicated situations. In mechanics, there are three fundamental quantities which are conserved. These are energy, momentum and angular momentum.
Answer:
The principle of conservation forms the most conspicuous and robust link between science and religion. In science, the principle is best known from the conservation of energy (the 1st law of thermodynamics) and the principle of charge and symmetry conservation (Noether's theorem). These two great conservation modes are apparently intuitively foreseen in the traditional Christian symbolism as the "Father" and the "Son", the "Father" corresponding to the most general form of conservation (energy conservation), while the "Son" represents a more specific conservation law (charge conservation), with respect to individual souls. The later operates only after the creation of matter and the "fall" of the Cosmos into an asymmetric and gravitational state. Christ comes with a message of hope for a material world: the underlying reality of the world is spiritual and the human soul is immortal.
The principle of conservation forms the most conspicuous and robust link between science and religion. In science, the principle is best known from the conservation of energy (the 1st law of thermodynamics) and the principle of charge and symmetry conservation (Noether's theorem). These two great conservation modes are apparently intuitively foreseen in the traditional Christian symbolism as the "Father" and the "Son", the "Father" corresponding to the most general form of conservation (energy conservation), while the "Son" represents a more specific conservation law (charge conservation), with respect to individual souls. The later operates only after the creation of matter and the "fall" of the Cosmos into an asymmetric and gravitational state. Christ comes with a message of hope for a material world: the underlying reality of the world is spiritual and the human soul is immortal.The central concept of conservatio সলn is that of a quantity or entity which remains forever unchanged despite transformations of its secondary or transient manifestations, permutations, or combinations. Conservation is evident in the notion of spiritual or divine law or principle, and the existence of an ultimate unmanifest and eternal ideal reality (Heaven - the conservation domain of spirit) that stands behind and produces the imperfect manifest realm.
n is that of a quantity or entity which remains forever unchanged despite transformations of its secondary or transient manifestations, permutations, or combinations. Conservation is evident in the notion of spiritual or divine law or principle, and the existence of an ultimate unmanifest and eternal ideal reality (Heaven - the conservation domain of spirit) that stands behind and produces the imperfect manifest realm.A simple (physical) example of conservation is provided by arithmetic. The only reason we can do arithmetic at all is that the first rule of the discipline of counting is that number is conserved. Hence we know that the sum of 80 plus 90 will always be the same, 170, because all the 170 individual ones, units, or "quanta" of our counting system are conserved in any transformation - addition, subtraction, division, multiplication, etc. Mathematics is a useful abstract or symbolic language-system of conservation laws which allows us to express the quantitative relationships of other naturally conserved systems exactly because it observes the rule that number is conserved in any transformation. If those 170 individual counting quanta were pennies, or monetary quanta, then you will perhaps more readily appreciate why we insist upon conservation in our counting system and arithmetic transformations. When we get change for a dollar we expect conservation of our monetary units or quanta to be observed during the transformation/transaction.
