Velocity of body and acceleration of body is zero implies body is at rest Acceleration of body is zero implies it is in a state of equilibrium Body in equilibrium can have non zero velocity
Means comparative static equilibrium
Using partial differential equations, you can estimate how long it will take to get within some difference between equilibrium and near-equilibrium. The mathematics predict that it will take infinite time to reach complete equilibrium, but for us humans we can settle for some difference that is so close as to make no difference to us.
mass
If the object is moving on constant speed or it's in rest, it is in equilibrium (ΣF=0)
By equalteralizing the difference between a normal cell and an irregular cell. This is process is called equilibrium.
K is the equilibrium constant, Q is a concentration.
No difference.
Equilibrium is when supply and demand is balanced or equivalent, whereas disequilibrium doesn't attain equilibrium which is either above or below equilibrium.
The difference is that chemical equilibrium is the equilibrium of products and reactants in a reaction while physical equilibrium is the equilibrium of the physical states of the same substance.
I don't know how you can differentiate between two same things. However I can tell you what homogeneous equilibrium is-If all the reactant and products are in the same phase then the reaction at equilibrium is in homogeneous equilibria.
equilibrium is reaching that state of equal concentration. isotonic is how you describe the cell that has equal concentration.
Means comparative static equilibrium
Using partial differential equations, you can estimate how long it will take to get within some difference between equilibrium and near-equilibrium. The mathematics predict that it will take infinite time to reach complete equilibrium, but for us humans we can settle for some difference that is so close as to make no difference to us.
Rest position or equilibrium position occurs when all the forces (gravity, the wind, friction etc) exerted on an object are equal.For example, a rolling ball is not in equilibrium because one or more forces (gravity or the force you used to initially move the ball) are greater in strength than the friction (both between the ball and the surface it is rolling on and between the ball and the air).The ball will stop rolling when the force causing it to move 'forwards' is overcome by frictional force. The ball will then be in equilibrium, or at rest.
Rest implies stationary, equilibrium implies a resultant force of zero. Therefore, a body in equilibrium could be moving, for example a sky diver at terminal velocity, where resistive forces are equal to the force of gravity. This means that a body can be in equilibrium and not at rest, but a body at rest MUST be in equilibrium, otherwise it would move. So, to answer the question is: It's impossible.
mass
homeostatis is when and organism maintains its internal self while dealing with external changes and equilibrium is a when all the conditions of a system which are competing influences are balanced, in a wide variety of contexts.