When equilibrium is reached, the fluid levels may not necessarily be the same as they are now. Equilibrium refers to a state where the forces or concentrations are balanced, leading to no net change in the system. However, the final fluid levels depend on factors such as the initial conditions and the specific processes involved in reaching that equilibrium. Thus, while the system will stabilize, the fluid levels could differ from their initial values.
Equilibrium position. The catalyst speeds up the rate at which equilibrium is reached by lowering the activation energy for both the forward and reverse reactions equally. The concentrations of reactants and products at equilibrium remain the same.
This indicates that the reaction has reached equilibrium, where the rate of the forward reaction is equal to the rate of the reverse reaction. At equilibrium, the concentrations of reactants and products remain constant over time, but both are still present in the system.
Dynamic equilibrium is a state in which forward and reverse processes are occurring at the same rate, resulting in no net change in the system. This means that the concentrations of reactants and products remain constant over time, but the reactions are still ongoing.
When the heat source is removed from a fluid, the fluid will cool down and its temperature will decrease. Depending on the type of fluid and the surrounding conditions, it may eventually reach equilibrium with its surroundings. Heat transfer will occur from the fluid to its surroundings until both reach the same temperature.
False. An equilibrium in which all the components are in the same phase (solid, liquid, or gas) is called a homogeneous equilibrium.
When the number of molecules crossing the membrane is the same in both directions, equilibrium is reached. This means that a state of balance has been achieved, where there is no net movement of molecules across the membrane.
dynamic equilibrium
Equilibrium in diffusion and osmosis is reached when there is a balanced distribution of particles or solutes across a membrane, resulting in no net movement of particles. In diffusion, equilibrium is reached when there is an equal concentration of particles on both sides of the membrane. In osmosis, equilibrium is reached when the water concentration is the same on both sides of the membrane.
Only when economic equilibrium is reached. The supply is often not the same as the demand.
No. When two bodies or regions are at the same temperature, equilibrium is already reached & no transfer of heat occurs.
thermal equilibrium. At this point, there is no further net transfer of heat between the bodies as they have the same temperature.
Thermal equilibrium between two objects is reached when they have the same temperature and there is no net flow of heat between them. This can be determined by measuring their temperatures over time and observing that they remain constant and equal.
No, equilibrium is reached when a system has the lowest free energy. At equilibrium, the system is in a stable state with no net change occurring, as the forward and reverse reactions are proceeding at the same rate.
The objects have reached thermal equilibrium, meaning they have equalized their temperatures by transferring heat until they are the same.
Equilibrium is reached, the solution is isotonic.
When equilibrium is reached, there is no net motion of molecules. This does not mean that no molecules are moving. In diffusion, this would mean there are equal molecules leaving as are entering.
Equilibrium position. The catalyst speeds up the rate at which equilibrium is reached by lowering the activation energy for both the forward and reverse reactions equally. The concentrations of reactants and products at equilibrium remain the same.