Hanky, please tell me if my understanding is correct.
1. There is a constant real number xxx.:up:
2. This number represents a constant quantity, such as volume, say 3 cubic meters.
This number is a special value of a variable quantity x(This is the parameter that yau said I have named), such as volume, say 3 cubic meters. (we can change volume .....)
3. There is also a parameter which you haven't named. Let's name it x. (see #2)
4. x is also a real number and represents the same quantity as xxx, here the volume of the system. (see #2)
5. By the left-hand side of xxx, we mean all values of x that are less than xxx, that is less than 3.:up:
6. By the right-hand side of xxx, we mean all values of x that are greater than xxx, that is greaeter than 3.:up:
7. There are two values A(t) and B(t) which change over time (denoted by t).
There are two values A(x) and B(x) which changes with respect to x
t here is x
8. The behavior of A(t) and B(t) over time depends on the value of x.
The behavior of A(x) and B(x) depends on the value of x.
(see #7)
9. C(t) is another value changing over time. ( C= C(A(x),B(x)) = F(X))
10. The value of C(t) depends on the values of A(t) and B(t). (see #8)
11. If x is on the left-hand side (that is less) than xxx, then the value B(t) has negligible impact on the value of C(t). Saying that C(t) depends on A(t) only won't cause large errors.
If x is on the left-hand side (that is less) than xxx, then the value B(x) has negligible impact on the value of C(A(x),B(x)). Saying that C(x) depends on A(x) only won't cause large errors.
12. If x is on the right-hand side (that is greater) than xxx, then it's the other way around.
I don't know how to understand yyy.