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Unit 1: Introduction to System Simulation
Notes
Figure 1.2: Simple Visual Model of Solar Radiation being Emitted from the
Sun and Intercepted by the Earth
Did u know? Definition of System
A system is an assemblage of interrelated parts that work together by way of some
driving process
Characteristics of a System
Most systems share the same common characteristics. These common characteristics include the
following:
1. Systems have a structure that is defined by its parts and processes.
2. Systems are generalizations of reality.
3. Systems tend to function in the same way. This involves the inputs and outputs of material
(energy and/or matter) that is then processed causing it to change in some way.
4. The various parts of a system have functional as well as structural relationships between
each other.
5. The fact that functional relationships exist between the parts suggests the flow and transfer
of some type of energy and/or matter.
6. Systems often exchange energy and/or matter beyond their defined boundary with the
outside environment, and other systems, through various input and output processes.
7. Functional relationships can only occur because of the presence of a driving force.
8. The parts that make up a system show some degree of integration – in other words the
parts work well together.
Properties of a System
Within the boundary of a system we can find three kinds of properties:
1. Elements are the kinds of parts (things or substances) that make up a system. These parts
may be atoms or molecules, or larger bodies of matter like sand grains, rain drops, plants,
animals, etc.
2. Attributes are characteristics of the elements that may be perceived and measured. For
example: quantity, size, color, volume, temperature, and mass.
3. Relationships are the associations that occur between elements and attributes. These
associations are based on cause and effect.
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