//William Bishop
//williambishop@oit.edu  Here we have the contact information and my name.

// BlankConsoleLab.cpp : This file contains the 'main' function. Program execution begins and ends there.
//

#include <iostream>  Here we are including the iostream.

using namespace std; Here we are using the standard start of the c++ function.

constant int x = mass / sq_meter;  This is the constant to print out mass in sqare meter realm

using std::cout; Here we have the cout function happening.
using std::cin; Here we have the cin function directives.
using std::endl; Here we have the end line directives

int main() Here is the start of the main function
{
   string sq_meter; Here we have the square meter definition string
    constant int x = mass / sq_meter; 
    int kite; Here we have a kite integer
    int horizontal_kitew; Here we have the horizontal width of the kite
    int vertical_kitel; Here we have the length of the kite

    cout << "Please enter a width of the kite" << endl; Here we ask for the width of the kite
    cin >> horizontal_kitew Here we get the input of the kite
    cout << "Your width is: " << horizontal_kitew << endl; Here we get the width of the kite output
    cout << "Please enter your height of the kite " << endl; This is the asking for the length of the kite
    cin >> vertical_kitel; Here we get the input of the kite
    cout << "Our width and the height is: " << horizontal_kitew << "and " << vertical_kitel << endl; Here we have the width and length of the kite output.
    
    int areaofkite; 
    int areaofkite = (horizontal_kitew * vertical_kitel) / 2; Here we have the area of the kite.
    cout << "The area of the kite is " << areaofkite;
    float Area_of_kiteM;
    float Area_of_kiteM = areaofkite / 10000; Here we get the area of the kite in meters.
    cout << " " << Area_of_kiteM << endl; 
    float aspectratio; 
    float aspectratio = horizontal_kitew / vertical_kitel; Here we have the aspectratio of the kite.
    cout << " Our aspect ratio is : " << aspectratio << endl; 

    if (aspectratio >= 1)
        cout << " WARNING : A lower aspect ratio than 1 would make more stability. " << endl; Here we output if the aspect ratio is less than one or not.
    //Part two

    int width2;
    int length2;
    float area2; Here we have the width and length for the part two of the kite.

    cout << "Please enter the width of the kite from cm: "; 

    cout << " Please enter a width of the kite from 1 to 400. " << endl; Here we get the width of the kite asking inside of the function.
    cin >> width2;
    if (width2 > 0 && width2 < 401)
        cout << "Thank you for entering. " << width2; If the width isn't from 1 to 400 we ask for the width again.
    else
        cout << "Please enter the width from 1 to 400. " << endl;
    cin >> width2;

    cout << "Please enter the length of the kite from cm: "; Here we get the length of the kite asking.

    cout << " Please enter a length of the kite from 1 to 400. " << endl;
    cin >> length2;
    if (length2 > 0 && length2 < 401)
        cout << "Thank you for entering. " << length2; Here get the input of the kite's length and the known else statement if the kite isn't from 1 to 400 in length.
    else
        cout << "Please enter the length from 1 to 400. " << endl;
    cin >> length2;
    float area2 = length2 * width2; 
    cout << "The area is " << area2; Here we get the area of the kite from part two of the program

    float weight; 
        float mass;
        float height;
        float density; Here we have the floats for what is the weight, mass, height, and the density of the kite.
        
        cout << "Please intput the weight of the kite in kgs. ";  Here get the weight of the kite
        cin >> weight;
        cout << "Please input the height of the kite meters " << endl; Here we get the height of the kite
            cin >> height;
            cout << "Please input the density of the kite in kilograms per cubic meter. " << endl; Here we get the density of the kite.
            cin >> density;
            cout << "Our density of the kite is " << density << "Our height of the kite is " << height<<endl;  
            float volume;  Here we have the volume float
            float length2meters;
            float width2meters;
            float length2meters = length2 / 10000;
            float width2meters = width2 / 10000;  Here we have our width and length of the kite in meters
            float area2 = width2meters * length2meters; Here we have the area of the kite
            float volume = area2 * height; Here we have the volume of the kite
            float mass = volume * density; Here we have the mass of the kite
            cout << "Our total mass of our kite is " << mass<<endl; Here we have the total mass of the kite
            string sq_meter = "sqmeter"; 

            cout << " Our mass is " << x << endl; Here we output out mass from the constant of what is the string square meter and the mass float.
            float Gravity_Pull;
            float distance;
            cout << "Please enter the distance from earth of the kite in meters. "
                cin >> distance; 
            Gravity_Pull = (10 * mass^2) / distance;
            cout << "The pull on  gravity from our kite is " << Gravity_Pull << "m^2/kg^2" << endl; Here we get the gravitational pull of the kite.
        



        











    













}