Escriba un programa para determinar la velocidad del bote en aguas tranquilas (B) dada la velocidad de la corriente (S en km/h), el tiempo que tarda (para el mismo punto) el bote río arriba (T1 en h) y río abajo (T2 en h).
Ejemplos:
Input : T1 = 4, T2 = 2, S = 5 Output : B = 15 Input : T1 = 6, T2 = 1, S = 7 Output : B = 9.8
Requisito previo: Velocidad de la embarcación aguas arriba y aguas abajo La
velocidad de la embarcación en aguas tranquilas se puede calcular utilizando la siguiente fórmula.
B = S*((T1 + T2) / (T1 – T2))
¿Cómo funciona esta fórmula?
Dado que el punto es el mismo, la distancia recorrida aguas arriba debe ser la misma que aguas abajo.
Por lo tanto,
(B – S) * T1 = (B + S) * T2
B(T1 – T2) = S*(T1 + T2)
B = S*(T1 + T2)/(T1 – T2)
C++
// CPP program to find speed of boat in still water
// from speed of stream and times taken in downstream
// and upstream
#include <iostream>
using namespace std;
// Function to calculate the speed of boat in still water
float still_water_speed(float S, float T1, float T2)
{
return (S * (T1 + T2) / (T1 - T2));
}
int main()
{
float S = 7, T1 = 6, T2 = 1;
cout << "The speed of boat in still water = "<<
still_water_speed(S, T1, T2)<<" km/ hr ";
return 0;
}
Java
// Java program to find speed of boat in still water
// from speed of stream and times taken in downstream
// and upstream
import java.io.*;
class GFG
{
// Function to calculate the
// speed of boat in still water
static float still_water_speed(float S, float T1, float T2)
{
return (S * (T1 + T2) / (T1 - T2));
}
// Driver code
public static void main (String[] args) {
float S = 7, T1 = 6, T2 = 1;
System.out.println("The speed of boat in still water = "+
still_water_speed(S, T1, T2)+" km/ hr ");
}
}
// This code is contributed by vt_m.
Python3
# Python3 program to find speed of boat
# in still water from speed of stream and
# times taken in downstream and upstream
# Function to calculate the
# speed of boat in still water
def still_water_speed(S, T1, T2):
return (S * (T1 + T2) / (T1 - T2))
# Driver code
S = 7; T1 = 6; T2 = 1
print("The speed of boat in still water = ",
still_water_speed(S, T1, T2), " km/ hr ")
# This code is contributed by Anant Agarwal.
C#
// C# program to find speed of boat
// in still water from speed of stream
// and times taken in downstream
// and upstream
using System;
class GFG {
// Function to calculate the
// speed of boat in still water
static float still_water_speed(float S, float T1,
float T2)
{
return (S * (T1 + T2) / (T1 - T2));
}
// Driver code
public static void Main()
{
float S = 7, T1 = 6, T2 = 1;
Console.WriteLine("The speed of boat in still water = " +
still_water_speed(S, T1, T2) + " km/ hr ");
}
}
// This code is contributed by vt_m.
PHP
<?PHP
// PHP program to find speed of
// boat in still water from speed
// of stream and times taken in
// downstream and upstream
// Function to calculate the speed
// of boat in still water
function still_water_speed($S, $T1, $T2)
{
return ($S * ($T1 + $T2) /
($T1 - $T2));
}
// Driver Code
$S = 7;
$T1 = 6;
$T2 = 1;
echo("The speed of boat in still water = " .
still_water_speed($S, $T1, $T2) .
" km/hr ");
// This code is contributed by Smitha
?>
Javascript
<script>
// Javascript program to find speed of
// boat in still water from speed
// of stream and times taken in
// downstream and upstream
// Function to calculate the speed
// of boat in still water
function still_water_speed(S, T1, T2)
{
return (S * (T1 + T2) / (T1 - T2));
}
// Driver Code
var S = 7;
var T1 = 6;
var T2 = 1;
document.write("The speed of boat in still water = " +
still_water_speed(S, T1, T2) + " km/hr ");
// This code is contributed by bunnyram19
</script>
Producción:
The speed of boat in still water = 9.8 km/hr
Complejidad de tiempo: O(1)
Espacio Auxiliar: O(1)