Dr.D said:First, I would suggest that you mentally separate Virtual Work (VW) and D'Alembert's Principle. They are different things.
In many respects, you are correct about VW being equivalent to Newton's Law; both give the equations of static equilibrium. The advantage of VW is often found that only active forces (forces that do work in a virtual displacement) need to be considered. This eliminates all the reactions at fixed supports and similar. The Principle of VW is often very useful for systems where the geometry is the thing to be determined, such as a linkage hanging under the influence of gravity. In a case like that, the linkage angles are all unknown (they are to be determined), and the force summations become awkward.
D'Alembert's Principle is an entirely different ball of wax. At the risk of possibly stepping on some toes, I see this as an outright contradiction to the Law of Action and Reaction. D'Alembert postulates a force (-M*a) that does not exist. As a force that does not exist, it therefore has no reaction to be found anywhere. This becomes extremely confusing, and I will never use D'Alembert. The "advantage" of D'Alembert is that it reduces the problem to a statics problem, or so they say. What advantage is that, when you must still find the acceleration? It usually has the effect of causing people to not pay adequate attention to the kinematics problem, and thus to incorrectly express the acceleration. Overall, it is a grand source of confusion.
Virtual Work is very powerful and useful; D'Alembert not so much!
CrazyNeutrino said:Also, are you Dr, D as in Dr. Dynamics on youtube?
Virtual work is a concept in mechanics that involves the calculation of the work done by forces on a system in a hypothetical displacement, rather than in an actual displacement. It is used to analyze the equilibrium of a system and determine the forces acting on it.
D'alembert's principle is a fundamental principle in mechanics that states that the sum of the external forces and the virtual forces acting on a system must be equal to zero for the system to be in equilibrium. Virtual work is used to calculate these virtual forces and determine if a system is in equilibrium according to D'alembert's principle.
D'alembert's principle is significant in mechanics because it allows for a simplified analysis of the equilibrium of a system. It eliminates the need to consider the acceleration of the system, making it easier to calculate the forces acting on it.
D'alembert's principle can be applied to any system in static equilibrium, meaning that it is not experiencing any acceleration. It is commonly used in rigid body mechanics, but can also be applied to non-rigid systems as long as they are not experiencing any acceleration.
Virtual work is used in various engineering and scientific fields to analyze the equilibrium and stability of structures and systems. It is also used in computer simulations and virtual testing to predict the behavior of systems under different conditions without physically testing them.