Program in C++ The user should be prompted to enter pitch width, x, height, h, a

Question

Program in C++

The user should be prompted to enter pitch width, x, height, h, and the applied forces F1 and F2.

You must create and use a function to calculate the hypotenuse of the right triangle you will need to help determine x and y force components of the truss members.

You must create and use a function to evaluate whether a force in Tension or Compression. The function will be called multiple times, once for each member. Any force value that has a magnitude from -0.00001 < F < 0.00001 will be considered a Zero Force member.

You must store each Force member name as a constant character string. For example, FAD will be stored as “Fad” for the string. You will use these character strings when you display your output.

Your output must be clearly stated to the user. For example, if FAD = -200, then your output should read something like: Fad has a magnitude of 200 and is in Compression. If FBC = 150, then it will be: Fbc has a magnitude of 150 and is in Tension.

C++ Program Assignment The purpose of this program is to identify the forces of each member of the truss below (FAB, FAD, Frac, FBD, BE FCE, FDE) and to state whether they are in tension or compression. Use the example we worked in class to determine the reaction forces (Ax, Ay, and Cy) and complete the analysis by the Method of Joints. When you have finished the program, you will upload the .cpp file to D2L in the Assessment Dropbox folder named C++ Program. Check with me before you leave to make sure I have received your file.

Explanation / Answer

#include<iostream.h>
#include<math.h>
#include<conio.h>
void main()
{
float x,y, F1,F2,Cy,Ay,Z,Fad,Fab,Fbd,Fde,Fbe,Fbc,Fce;
//prompt the user to enter pitch width x,height h and applied forces F1,F2
cout<<"Enter pitch width x height h, and the applied forces F1,F2";
cin>>x>>y>>F1>>F2;
Cy=(((1/4)*F1)+((3/4)*F2));
Ay=(((3/4)*F1)+((1/4)*F2));
Z=sqrt(((1/4)*x*x)+h*h);
Fad=(-(z/h)*Ay);
Fab=((-x/(2z))*Fad);
Fbd=(-Fad-(z/h)*F1);
Fde=(x/2z*(Fad-Fbd));
Fbe=(-Fbd);
Fbc=Fab+(x/2z)*(Fbd-Fbe);
Fce=(-(z/h)*Cy);
if((Fad||Fab||Fbd||Fde||Fbe||Fbc||Fce)<0)
{
cout<<"Zero force member";
}
else if((Fad||Fab||Fbd||Fde||Fbe||Fbc||Fce)>=200)
{
cout<<" magnitude is compression";
}
else if((Fad||Fab||Fbd||Fde||Fbe||Fbc||Fce)<=150)
{
cout<<"magnitute is tension";

}

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