Statics deals with stationary objects(bridge). Dynamics deals with things in motion(cannonball).
A Civil Engineer deals with statics a lot more. They design buildings, bridges, roads, ect.. to NOT MOVE. In fact, in Civil Engineering if something moves it is Failure! That is how failure is defined.. movement.
A Mechanical Engineer deals with dynamics a lot more. They design machines, mechanisims, and things with moving parts. Like levers, pulleys, etc. They WANT things to move and design them accordingly.
The study of Statics (objects at rest) and Dynamics (objects in motion) is the basis for much of engineering. Along with a class called strength of materials, which deals with the mechanics of the materials used in the machine, building, etc.
The opposite of dynamic is static.
all rom is static
It is a page that does not change. Its content is therefore static. The opposite would be a dynamic page, where content is regularly changing.
Static polymorphism is used the concept of early binding or we can say compile time binding where as dynamic polymorphism used the concept of late binding or run time binding.
well the static energy is the strength that resides in your body when you're not moving but dynamic energy is that the one occurs when you moving like swimming
If a system is static then it will be known as STATIC SYSTEM and if it is not static then its a common sense that it will be a DYNAMIC SYSTEM.
Dynamic systems, like people, are hard to predict what will happen or where they will go. Static systems, such as birds or rocks, follow a regular, pre-determined pattern to reach the same predictable result.
Static: Not Moving Dynamic: Moving
Dynamic unless you pay extra for a static.
No, it will work on dynamic too.
static comes from stationary means not moving and dynamic means moving
Dynamic process. Static means staying the same.
dynamic
DYnamic
The antonym of dynamic is 'static'.
static
Mass and damping are associated with the motion of a dynamic system. Degrees-of-freedom with mass or damping are often called dynamic degrees-of-freedom; degrees-of-freedom with stiffness are called static degrees-of-freedom. It is possible (and often desirable) in models of complex systems to have fewer dynamic degrees-of-freedom than static degrees-of-freedom.