Answer:
D. at the intersection of at least two constraints.
Explanation:
Linear programming is an optimization technique which is fine for the purpose of getting the best solution such as maximizing profit or certain o 4th era quantities. It is fine by modelling real life problems into mathematical models that have linear relationships or constraints such as in the form of objective functions. In linear programming, an objective function defines the formula for quantity optimization and the goal from this is to determine variable values that maximize or minimize the objective function depending on the problem robbery solved.
I can't tell you the answer without a picture, but to find the answer yourself: Go straight up from the cell containing 'Activity Questions' this will tell you a letter such as B. Go directly across to the left of the cell containing 'Activity Questions' this will tell you a number such as 3. The name of the cell I used as an example would be called B3.
Answer:
The answer is "supplierType"
Explanation:
Description of the code:
- In the given program two structure is defined, that is "supplierType and paintType", in which "supplierType" structure two-variable name and "supplierID" is defined, that datatype is "String and integer".
- In the next step, "paintType" is declared, in which "supplierType" object supplier is created, in which two string variable "color and paintID" are defined, in which "supplierType" data type is supplied.
The correct answer is: True
Explanation:
Consider the following program:
<span>class Main {
int a = 10;
public static void main(String[] args) {
add();
}
private static void add() {
int b = a+20;
System.out.println(b);
}<span>
}
The output of the above program is 30. As you can see the variable a is declared outside the method, whereas variable b is declared inside the method.</span></span>
Health care robots the key word, being "robots" aren't able to act as we can as humans.
Robots and systems lack the emotional skills that we as humans have, they are not intuitive.
There are many risks in using robots for health care, although, "health care" is a vague term, so I'll cover a few in general:
- Doctor/patient confidentiality is risked when using robots to handle personal medical matters, systems are never 100% secure.
- Robots and systems cannot emphasise with patients and will make decisions based on logic and theoretics, not emotionally - for example, if a patient is in a state of bad mental health, a robot will not be able to effectively analyse the right methods to take.
- The collection, storage and passing-on of patient information is risked as system encryption is never guaranteed.
