A reversible process is one which can be reversed and causes no changes in the system or surroundings. For a process in equilibrium, the rate of the forward process equals the rate of the reverse process (which can be, but is not necessarily equal to zero).
forward engineering: the creation of code from models. reverse engineering: the creation of models from code.
Both are 1.0 AMP SILICON S general purpose ,Low forward voltage drop. High surge current capabilityRECTIFIER.The only difference is in the maximum repetitive reverse voltage which is 1N4001 has a maximum repetitive reverse voltage of 50 V, 1N4007 is 1000V. Otherwise they are the same. There must be a fault in the circuit which caused the burn-out.
Probably a rather philosophical question, but if you want to make a quote it is the difference between an architect and a construction worker. Engineers design a framework and decide how the building works in its entirety and how it interconnects with the outside world and programmers execute the master plan, putting up the walls and installing the plumbing and electricity.
Reverse engineering is the process of taking a bit of executable code and decompiling it into a representation of its original source code. This is often used to change the functionality of a closed-source program, or to attempt to find out how a competitor in your field solves a problem.
yes Electrode Positive is the same as Reverse Polarity
Dynamic equilibrium.
In chemical reactions, kinetics refers to the speed at which a reaction occurs, while equilibrium is the point where the rates of the forward and reverse reactions are equal. Kinetics determines how quickly a reaction reaches equilibrium, and equilibrium represents a balance between the forward and reverse reactions.
Chemical equilibrium is the state in which the forward and reverse reactions occur at the same rate, resulting in no net change in the concentrations of reactants and products.
An equilibrium process is a state in which reactants and products reach a balance, meaning the forward and reverse reactions occur at the same rate. This results in no net change in the concentrations of reactants and products over time. The system is said to be at dynamic equilibrium.
difference between laminar air flow & reverse laminar air flow
There is none
Equilibrium-limited reactions refer to chemical reactions that are limited by the establishment of an equilibrium between reactants and products. This means that the reaction may not proceed to completion because the system reaches a dynamic equilibrium where the rate of the forward reaction is equal to the rate of the reverse reaction.
the normal is regular and a reverse is better
The correct answer is a simple one: The system is unaffected by a catalyst in a system in equilibrium.
Nothing
Equilibrium.
Thermal equilibrium in physics is a state where two systems are at the same temperature and heat no longer flows between them. In chemistry, thermal equilibrium specifically refers to the condition where the rates of the forward and reverse reactions are equal in a reversible reaction.