QUESTION 15:
Now say that you wanted the table to show time increasing in steps of 0.1 seconds. Modify the program so that it does this with maximum accuracy. The user will still enter the limit in seconds.
The finished program is given below.
The complete program can be copied and pasted into an editor, and run in the usual way.
import java.io.*;
// User picks ending value for time, t.
// The program calculates and prints the distance the brick has fallen for each t.
//
class fallingBrick
{
public static void main (String[] args ) throws IOException
{
final double G = 9.80665; // constant of gravitational acceleration
int t, limit; // time in seconds, and ending value of time
double distance; // the distance the brick has fallen
BufferedReader userin = new BufferedReader (new InputStreamReader(System.in));
String inputData;
System.out.println( "Enter limit value:" );
inputData = userin.readLine();
limit = Integer.parseInt( inputData );
// Print a table heading
System.out.println( "seconds\tDistance" );
System.out.println( "-------\t--------" );
t = 0 ;
while ( t <= limit )
{
distance = (G * t * t)/2 ;
System.out.println( t + "\t" + distance );
t = t + 1 ;
}
}
}
You could also write distance = 0.5*G*t*t;.
What were the two traps in translating the formula?
If you translated it as
(1/2)*G*t*t,
you fell into the first trap.
(1/2) asks for integer division of 1 by 2, resulting in zero.
If you translated the formulat as
1/2*G*t*t,
you fell into the second trap.
To the compiler,
this looks like the first wrong formula
(because "/" has equal precedence to "*").
A third problem is computing the square.
Do it as t
multiplied by t.
Now say that you wanted the table to show time increasing in steps of 0.1 seconds. Modify the program so that it does this with maximum accuracy. The user will still enter the limit in seconds.