Answer:
1. REPRODUCE THE ERROR
2. ERROR CODES
3. TROUBLESHOOT
4. IDENTIFY THE SOURCE OF THE PROBLEM
Explanation:
Debugging a program simply means a sequence of steps which one takes to correct an imperfect program, that is a program that does not run as intended.
A good way to start debugging is to run the code, by running the code, one will be able to determine if the program has a bug. If it has then it produces an error. This error is a good starting point as the error code gives a headway into where the bug may lie.
The error code gives a hint into the type of error causing a program to malfunction which could be a syntax error, logic, Runtime and so on. In some case probable lines where there error lies are spotted and included in the error code produced.
After evaluating the error code, then we troubleshoot the probable causes of the error. By troubleshooting all the possible causes, the source of the error will eventually be identified.
Answer:
As a first step in diagnosing the problem, you will
✔ reproduce the error.
A good place to begin is by examining the
✔ error codes.
Next, you can
✔ troubleshoot
the problem.
This will help you
✔ identify the source of the problem.
Explanation:
5. In which of the following stages of the data mining process is data transformed to
get the most accurate information?
A. Problem definition
B. Data gathering and preparation
C. Model building and evaluation
D. Knowledge deployment
Accompanies: Data Mining Basics
Answer:B
Explanation: BC I SAID
Which of these elements help të orient a user?
to
A
a dialog
B.
page name
c. an icon
b. a banner
Fast please
answer:
page name
Explanation:
Answer:
b. page name
Explanation:
plato
Create a program that will compute the voltage drop across each resistor in a series circuit consisting of three resistors. The user is to input the value of each resistor and the applied circuit voltage. The mathematical relationships are 1. Rt- R1 R2 + R3 It Vs/Rt Where Rt -Total circuit resistance in ohms R1,R2,R3 Value of each resistor in ohms It - Total circuit current in amps Vs -Applied circuit voltage Vn- Voltage drop across an individual resistor n (n-1, 2 or 3) in volts Rn-R1,R2, or R3
Use the values of 5000 for R1, 3000 for R2,2000 for R3, and 12 for Vs. The output of the program should be an appropriate title which identifies the program and include your name. All values should be accompanied by appropriate messages identifying each. Submit a printout of your program and the printed output to your instructor
Answer:
The program in Python is as follows:
R1 = int(input("R1: "))
R2 = int(input("R2: "))
R3 = int(input("R3: "))
Rt = R1 + R2 + R3
Vs = int(input("Circuit Voltage: "))
It = Vs/Rt
V1= It * R1
V2= It * R2
V3= It * R3
print("The voltage drop across R1 is: ",V1)
print("The voltage drop across R2 is: ",V2)
print("The voltage drop across R3 is: ",V3)
Explanation:
The next three lines get the value of each resistor
R1 = int(input("R1: "))
R2 = int(input("R2: "))
R3 = int(input("R3: "))
This calculates the total resistance
Rt = R1 + R2 + R3
This prompts the user for Circuit voltage
Vs = int(input("Circuit Voltage: "))
This calculates the total circuit voltage
It = Vs/Rt
The next three line calculate the voltage drop for each resistor
V1= It * R1
V2= It * R2
V3= It * R3
The next three line print the voltage drop for each resistor
print("The voltage drop across R1 is: ",V1)
print("The voltage drop across R2 is: ",V2)
print("The voltage drop across R3 is: ",V3)