3. Which steps in a scientific problem-solving approach requires to identlfy what
is the problem all about?
A. State the problem
B. Research the problem
C. Form a hypothesis
D. Test the hypothesis
E. Draw conclusions and solve problem
4. Which steps in a scientific problem-solving approach requires to dig deeper
into the problem?
A. State the problem
B. Research the problem
C. Form a hypothesis
D. Test the hypothesis
E. Draw conclusions and solve problem
5. Which steps in a scientific problem-solving approach requires to solve the
network problem?
A. State the problem
B. Research the problem
C. For a hypothesis
D. Test the hypothesis
E. Draw conclusions and solve problem
8. Which steps in a scientific problem-solving approach requires to test the
formed hypothesis?
A. State the problem
B. Research the problem
C. Form a hypothesis
D. Test the hypothesis
E. Draw conclusions and solve problem
7. Which steps in a scientific problem-solving approach requires to formulate a
hypothesis?
A. State the problem
B. Research the problem
C. Form a hypothesis
D. Test the hypothesis
E. Draw conclusions and solve problem
8. Which of the following is an example of reactive network troubleshooting
approach?
A. Maintaining a troubleshooting preventive schedule
B. Maintaining a documentation logbook
C. Doing repair as problem occurs
D. Having a network design in the wall.
9. Which of the following is an example of reactive network troubleshooting
approach?
A. Diagnose the problem​