Engineering Questions
8. 15 A manual arc welding cell uses a welder and a fitter. The cell operates 2,000 hriyr. The welder is paid $30/hr and the fitter is paid $25/hr. Both rates include applicable overheads. The cycle time to complete one welded assembly is 15. 4 min. Of this time, the arc-on time is 25%, and the fitter's participation in the cycle is 30% of the cycle time. A robotic arc welding cell is being considered to replace this manual cell. The new cell would have one robot, one fitter, and two workstations, so that while the robot is working at the first sta tion, the fitter is unloading the other station and loading it with new components. The fitter's rate would remain at $25/hr. For the new cell, the production rate would be eight welded assemblies per hour. The arc-on time would increase to almost 52%, and the fitter's participation in the cycle would be about 62%. The installed cost of the robot and worksta tions is $158,000. Power and other utilities to operate the robot and arc welding equipment will be $3. 80/hr, and annual maintenance costs are $3,500. Given a 3-year service life, 15% rate of return, and no salvage value, (a) determine the annual quantity of welded assem blies that would have to be produced to reach the break-even point for the two methods. (b) What is the annual quantity of welded assemblies produced by the two methods work. Ing 2,000 hryr?
Make a python code.Write a function named max that accepts two integer values as arguments and returns the value that is the greater of the two. For example, if 7 and 12 are passed as arguments to the function, the function should return 12. Use the function in a program that prompts the user to enter two integer values. The program should display the value that is the greater of the two. Write the program as a loop that continues to prompt for two numbers, outputs the maximum, and then goes back and prompts againHere’s an example of program useInput the first number: 10Input the second number: 5The maximum value is 10Run again? yesInput the first number: -10Input the second number: -5The maximum value is -5Run again? noFunction max():Obtain two numbers as input parameters: max(num1, num2):if num1 > num2 max_val = num1, else max_val = num2return max_valMain Program:Initialize loop control variable (continue = ‘y’)While continue == ‘y’Prompt for first numberPrompt for second numberCall function "max," sending it the values of the two numbers, capture result in an assignment statement:max_value = max (n1, n2)Display the maximum value returned by the functionprint(‘Max =’, max_val)Ask user for if she/he wants to continue (continue = input(‘Go again? y if yes’)