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Undefined; large
The positive regions of a function are those intervals where the function is above the x-axis. It is where the y-values are positive (not zero). The negative regions of a function are those intervals where the function is below the x-axis. It is where the y-values are negative (not zero).
The idea of a function is that when you give it an input number, it will always give you a unique output number. Examples: y = 2x (y is a function of x) h = 1/x2 + 5 (h is a function of x) z = 23 + 3y - x + x/y (z is a function of x and y) An equation simply tells you that two things are equal (left side is equal to the right side). Examples: y = 2x (note: also a function) 2x2 + 5 = 50 (not a function, but can be manipulated to become one: [x = squareroot of (50 - 5)/2]) 2 + 19 = 21 (not a function) All functions are equations, but not all equations are functions. Any equation where you have 1 input but more than 1 output is a relation. A function can have different inputs that give the same output, but not 1 input and multiple outputs (example: If you put 5 and -5 as inputs into the function y = x2, you will get the same output of 25.)
No. St. Constantine didn't become a Christian until he was on his deathbed. St. Jerome personally translated it into Latin. King James ordered it translated into English.
It is simply a mapping. It could be a function but there are several conditions that need to be met before the mapping can become a function and there is no basis for assuming that those conditions are met.
No. They become less ordered.
court ordered
Polarization
nothing, he was ordered.
As they lose energy, atoms or molecules will become more ordered.
Cells can become cancerous
The system has become more ordered.
melting
The system has become more ordered.
no
Entropy
to become shamu