return altitude(i) - ground_altitude;
}
+ public double apogee_pressure() {
+ return min_pressure;
+ }
+
+ public double apogee_altitude() {
+ return AltosConvert.pressure_to_altitude(apogee_pressure());
+ }
+
+ public double apogee_height() {
+ return apogee_altitude() - ground_altitude;
+ }
+
static final int speed_avg = 3;
static final int accel_avg = 5;
f.write('\n');
}
+ public void export (Writer f) throws IOException {
+ PrintWriter pw = new PrintWriter(f);
+ pw.printf(" Time, Press(Pa), Height(m), Height(f), Speed(m/s), Speed(mph), Speed(mach), Accel(m/s²), Accel(ft/s²), Accel(g)\n");
+ for (MicroDataPoint point : points()) {
+ pw.printf("%6.3f,%10.0f,%10.1f,%10.1f,%11.2f,%11.2f,%12.4f,%12.2f,%13.2f,%10.4f\n",
+ point.time,
+ point.pressure,
+ point.height,
+ AltosConvert.meters_to_feet(point.height),
+ point.speed,
+ AltosConvert.meters_to_mph(point.speed),
+ AltosConvert.meters_to_mach(point.speed),
+ point.accel,
+ AltosConvert.meters_to_feet(point.accel),
+ AltosConvert.meters_to_g(point.accel));
+ }
+ }
+
public void set_name(String name) {
this.name = name;
}