right-angled corner of two intersecting corridors. Suppose that the widths of the two intersecting corridors are 5 feet and 8 feet (see figure below). Your objective is to find the length of the longest pipe, rounded to the nearest foot, that can be carried level around the right-angled corner.
A pipe is to be carried around the right-angled corner of two intersecting corridors. Suppose that the widths of the two intersecting corridors are 5 feet and 8 feet (see figure below). Your objective is to find the length of the longest pipe, rounded to the nearest foot, that can be carried level around the right-angled corner.
Write a program that prompts the user to input the widths of both of the hallways. The program then outputs the length of the longest pipe, rounded to the nearest foot, that can be carried level around the right-angled corner. Note that the length of the pipe is given by:
length = AB + BC = (8 / sin x) + (5 / cos x),
where 0 < x < pi/2.
Include at least three functions to get the input, do the calculations, and show the output. PLEASE DO THIS IN C++ CODE. ALSO DO THE CODE AS SIMPLE AS POSSIBLE SINCE I ONLY KNOW THE BASICS C++ and im not a PRO. Please also insert explanation for each code since i really need a guide on the use of every code. PLEASE DO WHAT WERE ASKED FOR THIS PROGRAM. thank youuuu so much and may godbless you!
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 1 images