YOU ARE EMPLOYED BY THE WHUD-DA-CRUDY SPORTING GOODS COMPANY AND YOUR COMPANY HAS JUST INVENTED A NEW GOLF BALL. YOUR BOSS ASKS YOU TO MAKE A REFERENCE CHART TO PREDICT EXPECTED DISTANCE VALUES, AGAINST WHICH TO TEST THE FLIGHT CHARACTERISTICS (NAMELY DISTANCE) OF THE NEW BALL. THE FIELD TESTERS WILL NEED SOME VALUES TO COMPARE THEIR TESTS RESULTS. THE BOSS WANTS A TABLE WITH INITIAL VELOCITIES STARTING AT 100 AND GOING TO 1000 IN STEPS OF 100 ON ONE AXIS, AND TRAJECTORY ANGLES (ANGLE OF THE CLUB HEAD) OF 5 TO 85 STEPPING BY 5 DEGREES ON THE OTHER AXIS. (PUT VELOCITY ACROSS THE TOP AND ANGLES DOWN THE SIDE.) AFTER A LITTLE RESEARCH YOU FIND TWO EQUATIONS THAT ARE USEFUL FOR THIS PROJECT: X = VELOCITY * (COS (ANGLE)) * TIME HORIZONTAL DISTANCE Y = VELOCITY * (SIN (ANGLE)) * TIME - (1./2.) * G * TIME ** 2 FOR THE VERTICAL DISTANCE IF THE TESTS ARE DONE ON THIS PLANET THE G VALUE IS 32. YOU KNOW THAT WHEN Y <= 0 THE BALL HAS LANDED. IGNORE THE BOUNCE. ************************************************************** *** NOTE: THE SIN AND COS FUNCTION USE AN ANGLE IN RADIANS *** *** TO CONVERT DEGREES TO RADIANS MULTIPLY DEGREES *** *** BY .0174533 *** ************************************************************** THIS IS A NESTED LOOP PROBLEM, WITH ANGLE THE OUTER-MOST LOOP. THE VELOCITY LOOP IS NEXT AND AN INNER-MOST LOOP FOR TIME UNTIL THE BALL LANDS. THE LOOPS WOULD BE: FOR A = 5 TO 85 STEP 5 FOR V = 100 TO 1000 STEP 100 T = .5 30 T = T + .5 X = ... Y = ... IF ... : GOTO 50 GOTO 30 50 NEXT V PRINT NEXT A